diff --git "a/output_mini_mini.csv" "b/output_mini_mini.csv"
new file mode 100644--- /dev/null
+++ "b/output_mini_mini.csv"
@@ -0,0 +1,100 @@
+id,doi,zh_title,year,authors,firstauthor,hasfulltext,publish_date,volume,issue,page_start,page_end,print_issn,abstract,field_name,journal,source,cited_times,reference_times,is_oa,tags,oa_status,journal_tags,organization,citation,references,authors_split
+j_e1c65f4a553585320f8d1779ba5038ec,10.0000/cyberleninka.ru/article/n/impact-of-clusters-ni-b-on-the-photocatalytic-properties-of-tio-2-nanopowdersw,Impact of clusters Ni-B on the photocatalytic properties of TiO 2 nanopowdersw,2015,"NADAREISHVILI M.M.,GEGECHKORI T.O.,MAMNIASHVILI G.I.","NADAREISHVILI M.M.,GEGECHKORI T.O.,MAMNIASHVILI G.I.",TRUE,2015/1/1,,7-2 (38),,,2303-9868,,,���֧اէ�ߧѧ��էߧ��� �ߧѧ��ߧ�-�ڧ��ݧ֧է�ӧѧ�֧ݧ��ܧڧ� �ا��ߧѧ�,scimag,0,0,FALSE,,,,{},{},{},"{'person_id': ' ', 'orcid': ' ', 'name': 'NADAREISHVILI M.M.,GEGECHKORI T.O.,MAMNIASHVILI G.I.', 'email': ' ', 'org_name': ' ', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_e2ef6e1c95815379e12f932c6b5e5b04,10.1002/(sici)1096-9063(199706)50:2<171::aid-ps565>3.0.co;2-h,Photocatalytic Degradation of Lindane in Aqueous Solution,1997,Anastasia Hiskia;Athanasios Mylonas;Despina Tsipi;Elias Papaconstantinou,Anastasia Hiskia,TRUE,1997/6/1,50,2,171,174,0031-613X,"Photolysis of lindane in aqueous solution, using near-visible and UV light (�� > 320 nm) and in the presence of the polyoxometallate PW 12 O 40 3- , results in its conversion to CO 2 and HCl. Initial photodecomposition takes place within a few minutes both in the presence and absence of dioxygen. The effective mineralization in the absence of dioxygen suggests that OH radicals act as the primary oxidant in this case.",Chemistry,Pesticide Science,Crossref;corpus;unpaywall;openalex;scimag,17,10,FALSE,,closed,,"{'org_name': 'State Laboratory', 'org_id': '96f61bdcc35bd24b16f992ebb4abef42'};{'org_name': 'Institute of Physical Chemistry', 'org_id': '29add38b8faf78f7347e528054f91bab'}","{'id': 'j_4f1524748c122bfc9fb770b3e5b51e8b', 'zh_title': 'Polyoxometalate Molecular Science || Photochemistry and Photocatalysis by Polyoxometalates', 'authors': 'Borr��s-Almenar, Juan J.; Coronado, Eugenio; M��ller, Achim; Pope, Michael ', 'year': '2003'};{'id': 'j_29be898b22b474e94d6f5789c612e287', 'zh_title': 'Photocatalytic Decontamination by Polyoxometalates', 'authors': 'A.  Hiskla;E.  Androulaki;Athanasios  Mylonas;A.  Troupis;E.  Papaconstantinou', 'year': '2001'};{'id': 'j_b43d4fd72650a61a684ccab791d2e91b', 'zh_title': 'Photolytic and photocatalytic decomposition of fenitrothion by PW12O403? and TiO2: a comparative study', 'authors': 'P Kormali;D Dimoticali;D Tsipi;A Hiskia;E Papaconstantinou', 'journal': 'Applied Catalysis B-environmental', 'year': '2004'};{'id': 'j_9491971f3e4f500a3dbb7a43bafe7d22', 'zh_title': 'Photocatalytic mineralization of chlorinated organic pollutants in water by polyoxometallates. Determination of intermediates and final degradation products', 'authors': 'A. Hiskia;E. Androulaki;A. Mylonas;S. Boyatzis;D. Dimoticali;C. Minero;E. Pelizzetti;E. Papaconstantinou', 'journal': 'Research on Chemical Intermediates', 'year': '2000'};{'id': 'j_a54ae30486efff18d2580c2fb4f05cd6', 'zh_title': 'GEF: Regionally based assessment of persistent toxic substances. Bibliography for a selected number of persistent toxic substances', 'authors': 'Pnuma', 'year': '2000'};{'id': 'j_fd0bf89572111628f3ce3c4467c44fb6', 'zh_title': 'Toxicological profile for alpha-, beta-, gamma, and delta-hexachlorocyclohexane', 'authors': 'Annette  Ashizawa;Alfred  Dorsey;Jewell D. Wilson', 'year': '2005'};{'id': 'j_fabd566ef0bd666fe06e3e0bf138c3f6', 'zh_title': 'Chemical oxidation and reduction of hexachlorocyclohexanes: A review', 'authors': 'Stanis?aw Wac?awek;Daniele Silvestri;Pavel Hrab��k;Vinod V.T. Padil;Rafael Torres-Mendieta;Maria Wac?awek;Miroslav ?ern��k;Dionysios D. Dionysiou', 'journal': 'Water Research', 'year': '2019'};{'id': 'j_430714d54833865bb01623c13e3a340f', 'zh_title': 'Photocatalytic degradation of pesticide contaminants in water', 'authors': 'Suja Devipriya;Suguna Yesodharan', 'journal': 'Solar Energy Materials and Solar Cells', 'year': '2005'};{'id': 'j_ece793d9696b4e15cdef4d8bcd70a0d2', 'zh_title': 'Photocatalytic degradation of lindane, p,p��-DDT and methoxychlor in an aqueous environment', 'authors': 'Adriana Zaleska;Jan Hupka;Marek Wiergowski;Marek Biziuk', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '2000'};{'id': 'j_60e403e9ee7169195491d76b6a5b843d', 'zh_title': 'Polyoxometallate photocatalysis for decontaminating the aquatic environment from organic and inorganic pollutants', 'authors': 'Anastasia Hiskia;Aristidis Troupis;Stamatia Antonaraki;Eleni Gkika;Pigi Kormali#Elias Papaconstantinou', 'journal': 'International Journal of Environmental Analytical Chemistry', 'year': '2006'};{'id': 'j_c2b1e218600ac6c0c8db3ede61616865', 'zh_title': 'Photocatalytic degradation of lindane by polyoxometalates: Intermediates and mechanistic aspects', 'authors': 'S. Antonaraki;T.M. Triantis;E. Papaconstantinou;A. Hiskia', 'journal': 'Catalysis Today', 'year': '2010'};{'id': 'j_7c4f22463a1defaadee0b440d3d28e56', 'zh_title': 'Hydrogen peroxide-assisted UV photodegradation of Lindane', 'authors': 'Amanda M. Nienow;Juan Cesar Bezares-Cruz;Irene C. Poyer;Inez Hua;Chad T. Jafvert', 'journal': 'Chemosphere', 'year': '2008'};{'id': 'j_2c03c175e77945c87c49e138f762fcb8', 'zh_title': 'Phosphotungstic acid supported on chitosan/SiO2 composite for photocatalytic degradation of tetraazo dye direct fast black G', 'authors': 'Kebin Li;Yanhui Zhang;Qinqin Wang;Hong Wei;Feng Zhao;Tao Zhang', 'journal': 'International Journal of Nanomanufacturing', 'year': '2014'};{'id': 'j_b85e7b1c4aa2fc99b2b5c85d9452b56e', 'zh_title': 'Sunlight Assisted Photodecolorization of Methylene Blue Catalyzed by H3PW12O40 Grafting on APTMS-Graphene Oxide', 'authors': 'Bahareh  Forghani;Razieh  Fazaeli;Hamid  Aliyan', 'year': '2020'};{'id': 'j_bbf1b9bae2c2ec6d1e1f1f4138d777ec', 'zh_title': 'Investigation of the photocatalytic degradation of organochlorine pesticides on a nano-TiO2 coated film', 'authors': 'B YU;J ZENG;L GONG;M ZHANG;L ZHANG;X CHEN', 'journal': 'Talanta', 'year': '2007'};{'id': 'j_2ea344d686b114e5864fa7b7ce58f7dd', 'zh_title': 'Enhanced photocatalytic degradation of lindane using metal�Csemiconductor Zn@ZnO and ZnO/Ag nanostructures', 'authors': 'Hyeon Jin Jung;Ravindranadh Koutavarapu;Seulki Lee;Ju Hyun Kim;Hyun Chul Choi;Myong Yong Choi', 'journal': 'Journal of Environmental Sciences', 'year': '2018'};{'id': 'j_3e8b41531566c473dd2891fd358bf3eb', 'zh_title': 'Genetic Analysis of Citrobacter sp.86 Reveals Involvement of Corrinoids in Chlordecone and Lindane Biotransformations', 'authors': 'Agn��s Barbance;Oriane Della-Negra;S��bastien Chaussonnerie;Val��rie Delmas;Delphine Muselet;Edgardo Ugarte;Pierre-Lo?c Saaidi;Jean Weissenbach;C��cile Fischer;Denis Le Paslier;Nuria Fonknechten', 'journal': 'Frontiers in Microbiology', 'year': '2020'}","{'id': 'j_f532a01df94de8258ff10946ed728743', 'zh_title': 'Photochemical processes for water treatment', 'authors': 'O. Legrini;E. Oliveros;A. M. Braun', 'journal': 'Chemical Reviews', 'year': '1993'};{'id': 'j_30deec8e8acdfdb791cccd37827fac0c', 'zh_title': 'Photocatalytic degradation of chlorophenols to CO2 and HCl with polyoxotungstates in aqueous solution', 'authors': 'A. Mylonas;E. Papaconstantinou', 'journal': 'Journal of Molecular Catalysis', 'year': '1994'};{'id': 'j_e2babc1f14d019d0bacbb4d4bd2ad8c5', 'zh_title': 'On the mechanism of photocatalytic degradation of chlorinated phenols to CO2 and HCl by polyoxometalates', 'authors': 'A. Mylonas;E. Papaconstantinou', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '1996'};{'id': 'j_c9ed0a3cf7c2682cad0de07609d3be0d', 'zh_title': 'Heteropoly Blues. I. Reduction Stoichiometries and Reduction Potentials of Some 12-Tungstates', 'authors': 'Michael T. Pope;Gideon M. Varga', 'journal': 'Inorganic Chemistry', 'year': '1966'};{'id': 'j_a48f1d2c20b7a058918004630cfa02cf', 'zh_title': 'Photocatalytic degradation of phenol and p-cresol by polyoxotungstates. mechanistic implications', 'authors': 'A. Mylonas;E. Papaconstantinou;V. Roussis', 'journal': 'Polyhedron', 'year': '1996'};{'id': 'j_4942559ff6d5ddc730f2d3e542b28492', 'zh_title': 'Spectrophotometric determination of chloride at the parts-per-billion level by the mercury(II) thiocyanate method', 'authors': 'T.M. Florence;Yvonne J. Farrar', 'journal': 'Analytica Chimica Acta', 'year': '1971'};{'id': 'j_9a135452ec4020ebd298406d0a6580ce', 'zh_title': 'Photochemistry of polyoxometallates of molybdenum and tungsten and/or vanadium', 'authors': 'E. Papaconstantinou', 'journal': 'Chemical Society Reviews', 'year': '1989'};{'id': 'j_8b0370d125915ebe250861039f1210ba', 'zh_title': 'Metal Oxide Chemistry in Solution: The Early Transition Metal Polyoxoanions', 'authors': 'Victor W. Day;Walter G. Klemperer', 'journal': 'Science', 'year': '1985'};{'id': 'j_7cfa1cdb48a0f4348b5baae76becb773', 'zh_title': 'The Role of Reactive Oxygen Species in the Degradation of Lindane and DDT', 'authors': 'S. Prakash;G.S. Tandon;T.D. Seth;P.C. Joshi', 'journal': 'Biochemical and biophysical research communications', 'year': '1994'};{'id': 'j_a2f9214156313f8ad4130fbb060f9543', 'zh_title': 'Radiation- and photo-induced degradation of five isomers of 1,2,3,4,5,6-hexachlorocyclohexane.', 'authors': 'Masayuki HAMADA;Eiko KAWANO;Shunichi KAWAMURA;Motoo SHIRO', 'journal': 'Agricultural and Biological Chemistry', 'year': '1981'}","{'person_id': '1adb0fbb62704eb9ee7c35268b8bb8d8', 'orcid': ' ', 'name': 'Despina Tsipi', 'email': '', 'org_name': 'State Laboratory', 'org_id': '96f61bdcc35bd24b16f992ebb4abef42', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '4dbf59a6c498a4af3caf55a83979f90d', 'orcid': ' ', 'name': 'E. Papaconstantinou', 'email': '', 'org_name': 'Institute of Physical Chemistry, NCSR Demokritos, 153�\10 Athens, Greece', 'org_id': ' ', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '351419a252d52eaa125f36b3b116d206', 'orcid': ' ', 'name': 'Athanasios Mylonas', 'email': '', 'org_name': 'Institute of Physical Chemistry, NCSR Demokritos, 153�\10 Athens, Greece', 'org_id': ' ', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '8a10eb561538b1cd93289811f9745774', 'orcid': 'https://orcid.org/0000-0002-3674-3223', 'name': 'Anastasia Hiskia', 'email': '', 'org_name': 'Institute of Physical Chemistry, NCSR Demokritos, 153�\10 Athens, Greece', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_77caa90a62d86d8f4b5ffb0322d4674b,10.1002/(sici)1097-0231(199612)10:15<1881::aid-rcm766>3.0.co;2-c,Secondary Ion Mass Spectrometric Studies on the Formation Mechanism of IrO2/ZrO2 Based Electrocatalytic Thin Films,1996,S. Daolio;J. Krist��f;J. Mink;A. De Battisti;J. Mih��ly;C. Piccirillo,S. Daolio,TRUE,1996/12/1,10,15,1881,1886,0951-4198;1097-0231,"Secondary ion mass spectrometry (SIMS) was used to analyse the formation mechanism of IrO2/ZrO2 film electrodes. The coating mixtures with compositions 20% Ir+80% Zr and 50% Ir+50% Zr prepared on titanium supports from alcoholic solutions of IrCl3.3H2O and ZrOCl2.8H2O precursors were heated to specified temperatures and analysed by SIMS. The process of the electrode film evolution was followed via concentration depth profiles of O?, Cl?, IrO",Chemistry,Rapid Communications in Mass Spectrometry,Crossref;corpus;unpaywall;openalex;scimag,3,0,FALSE,,closed,����ѧ;��ѧ������;�����о�����,"{'org_name': 'Department of Analytical Chemistry, University of Veszpr��m, PO Box 158, H8201 Veszpr��m, Hungary', 'org_id': '25dbc44de7872abcd13a562551c141fc'};{'org_name': '��������ѧ', 'org_id': 'b6de44053bc34a8bc8eb4a6feb433c56'};{'org_name': 'Istituto di Polarogafia ed Elettrochimica Preparativa, Consiglio Nazionale delle Ricerche, Corso Stati Uniti, 4, I�\35127 Padova, Italy', 'org_id': '1f0a7b37c8df9900a048d5a2a88037f7'}","{'id': 'j_27e2ada1f4d3c7ec14b9e5f6935742fb', 'zh_title': 'Study of Metal Oxide Electrocatalytic Thin Film Evolution by Thermoanalytical and Spectroscopic Techniques��a Review', 'authors': 'J. Krist��f;E. Horv��th;S. Daolio', 'journal': 'Electrocatalysis', 'year': '2013'};{'id': 'j_653667a3998463d0303ab3c1dfa4acb4', 'zh_title': 'Some historical aspects of thermal analysis on the mid-European territory', 'authors': 'Petra ?ulcov��;Jaroslav ?est��k;Alfr��d Menyh��rd;George Liptay', 'journal': 'Journal of Thermal Analysis and Calorimetry', 'year': '2015'};{'id': 'j_fc57787175a24396b2bd0800bea3bfad', 'zh_title': 'Investigation of Ta2O5 Thin Film Evolution', 'authors': 'J��nos Krist��f;Achille De Battisti;G��bor Keresztury;Erzs��bet Horv��th;Tam��s Szil��gyi', 'journal': 'Langmuir', 'year': '2001'}",{},"{'person_id': 'c40e47a5393a25b56418860048172572', 'orcid': ' ', 'name': 'A. De Battisti', 'email': '', 'org_name': 'University of Ferrara', 'org_id': '6568748d309436a2d03e9543c6f70c6c', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '1a606e59f177f22771dc0266aac57f75', 'orcid': 'https://orcid.org/0000-0002-3054-6923', 'name': 'J��nos Mink', 'email': '', 'org_name': 'Veszpr��mi ��rseki Hittudom��nyi F?iskola', 'org_id': ' ', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '988d9b4ba9c1ced9d838f83e45d0eabb', 'orcid': 'https://orcid.org/0000-0002-6339-716X', 'name': 'Clara Piccirillo', 'email': '', 'org_name': 'Istituto di Polarogafia ed Elettrochimica Preparativa, Consiglio Nazionale delle Ricerche, Corso Stati Uniti, 4, I�\35127 Padova, Italy', 'org_id': ' ', 'author_num': 6, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '2c70b6c88d4ca0899c3a2feaf70ec0d1', 'orcid': 'https://orcid.org/0000-0003-4291-3345', 'name': 'Judith Mih��ly', 'email': '', 'org_name': 'Veszpr��mi ��rseki Hittudom��nyi F?iskola', 'org_id': ' ', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '3bdfac9ad9b9649131c08b71beae710f', 'orcid': ' ', 'name': 'J. Krist��f', 'email': '', 'org_name': 'Veszpr��mi ��rseki Hittudom��nyi F?iskola', 'org_id': ' ', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '563b8e4b2696cf647c5e0135adccae8c', 'orcid': ' ', 'name': 'Sergio Daolio', 'email': '', 'org_name': 'Istituto di Polarogafia ed Elettrochimica Preparativa, Consiglio Nazionale delle Ricerche, Corso Stati Uniti, 4, I�\35127 Padova, Italy', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_dd5b6ef7d37b515516ff767ef2e79d6e,10.1002/(sici)1097-0231(20000515)14:9<800::aid-rcm947>3.0.co;2-f,Ni-Zr alloys: relationship between surface characteristics and electrocatalytic behavior,2000,Emma Angelini;Carlo Antonione;Marcello Baricco;Sergio Daolio;Monica Fabrizio;Francesco Rosalbino,Emma Angelini,TRUE,2000/5/15,14,9,800,807,0951-4198;1097-0231,"A relationship between electrocatalytic activity for the hydrogen evolution reaction and the surface composition of the electrode was established for Ni-Zr crystalline and amorphous alloys by means of secondary ion mass spectrometry (SIMS). Electrocatalytic activity was tested by means of cathodic polarization in 1 M KOH at 25 degrees C and the resulting exchange current density has been taken as a measure of catalytic efficiency. Surface activation treatment involved chemical etching in HF solutions; the consequent morphological and compositional surface changes were studied by differential scanning calorimetry (DSC), X-ray diffraction (XRD) and scanning electron microscopy (SEM). The electrochemical behavior of the pure elements (Ni and Zr) was also considered for comparison. All samples submitted to chemical etching in HF solutions showed an increase in electrocatalytic activity, particularly the alloy with the highest Ni content. The beneficial effect of chemical etching is due to dissolution of the zirconium oxide layer and to the formation of nanocrystalline Ni on the surfaces.",Chemistry;Medicine,Rapid Communications in Mass Spectrometry,Crossref;corpus;unpaywall;pubmed;openalex;scimag,4,14,FALSE,PM,closed,����ѧ;��ѧ������;�����о�����,"{'org_name': '�����ѧ', 'org_id': '88d9a3bb6a7c4ed962ff0622c3db7e91'};{'org_name': 'Polytechnic University of Turin', 'org_id': 'fa308e7e5bbf7948df3a66098072775b'};{'org_name': 'IPELP CNR, Corso Stati Uniti 4, Padova, Italy', 'org_id': '329d868afa16cbfad8bafc46dadbfd0a'}","{'id': 'j_ba401bbf3b9eb3f773b3f446c26ba89f', 'zh_title': 'Thermal stability of interfacial mixed layers in c-Ni/a-Zr multilayer during annealing: Structural and magnetic properties', 'authors': 'Debarati Bhattacharya;Vijay Karki;Surendra Singh;T.V. Chandrasekhar Rao', 'journal': 'Applied Surface Science', 'year': '2022'};{'id': 'j_773b51bce356d37096e24d2c406eafb0', 'zh_title': 'Electrochemical Oxidation by Square-Wave Potential Pulses in the Imitation of Oxidative Drug Metabolism', 'authors': 'Eslam Nouri-Nigjeh;Hjalmar P. Permentier;Rainer Bischoff;Andries P. Bruins', 'journal': 'Analytical Chemistry', 'year': '2011'};{'id': 'j_fda34447547639dbf5442a90e3dd77e3', 'zh_title': 'Effect of hydrofluoric acid treatment on the crystallisation behaviour of Zr�CTi�CCu�CAl�CNi metallic glass', 'authors': 'J��r?me Paillier;Annett Gebert', 'journal': 'Thermochimica Acta', 'year': '2010'};{'id': 'j_f56c776714ae5918a40ac56e17b68776', 'zh_title': 'Secondary ion mass spectrometric investigation of Au-based composites', 'authors': 'Simona Barison;Clara Piccirillo;Monica Fabrizio;Sergio Daolio', 'journal': 'Rapid communications in mass spectrometry : RCM', 'year': '2001'}","{'id': 'j_09b3556f71739b3ae2ba80f1b904c715', 'zh_title': 'Amorphous Ni�CTi and Ni�CZr Alloys for Water Electrolysis Cathode Materials', 'authors': 'Ken-ichi Machida;Michio Enyo;Isamu Toyoshima;Koshiro Miyahara;Kenzo Kai;Kenji Suzuki', 'journal': 'Bulletin of the Chemical Society of Japan', 'year': '1983'};{'id': 'j_b4adc1ba2f722b5215ee7d32c5f35809', 'zh_title': 'Advances in electrocatalysis for hydrogen evolution in the light of the Brewer-Engel valence-bond theory', 'authors': 'Milan M. Jak?i?', 'journal': 'Journal of Molecular Catalysis', 'year': '1986'};{'id': 'j_c4fb8a8c79df886190189d96fdc544ea', 'zh_title': 'Nanocrystalline Ni-Mo alloys and their application in electrocatalysis', 'authors': 'R. Schulz;J.Y. Huot;M.L. Trudeau;L. Dignard-Bailey;Z.H. Yan;S. Jin;A. Lamarre;E. Ghali;A. Van Neste', 'journal': 'Journal of Materials Research', 'year': '1994'};{'id': 'j_55b3ef28264f5bb51f158a37326b5e04', 'zh_title': 'Activation behaviour of mechanically Ni-coated Zr-based laves phase hydride electrode', 'authors': 'Dalin Sun;M. Latroche;A. Percheron-Gu��gan', 'journal': 'Journal of Alloys and Compounds', 'year': '1997'};{'id': 'j_86f29a84db26b04152387f95f2bb1c2f', 'zh_title': 'Amorphous alloy catalysts for electro-oxidation of methanol and its derivatives in a sulphuric acid solution', 'authors': 'A. Kawashima;T. Kanda;K. Hashimoto', 'journal': 'Materials Science and Engineering', 'year': '1988'};{'id': 'j_5ed8e5db307e80cc5ac0ca4255125299', 'zh_title': 'Electrocatalytic Properties of Ni-Zr Based Amorphous and Nanocrystalline Alloys', 'authors': 'Marcello Baricco;F. Minichilli;E. Angelini;S. Spriano;F. Rosalbino;P. Spinelli;Emma Paola Maria Virginia Angelini', 'journal': 'Materials Science Forum', 'year': '1996'};{'id': 'j_f5feb129291fcf76f6e6d03ddeaa1897', 'zh_title': 'Stability of the Passive State of Ni-Zr Glassy Alloys', 'authors': 'M. Janik-Czachor', 'journal': 'Corrosion', 'year': '1993'};{'id': 'j_55a92a8759065333f88b7f2eb6d32ef0', 'zh_title': 'Work function, electronegativity, and electrochemical behaviour of metals', 'authors': 'Sergio Trasatti', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1972'};{'id': 'j_414c5a1f2c6da6de04622a6c6ff06f2a', 'zh_title': 'Electrocatalytic behaviour of Zr64Ni36 and Zr48Ni27Al25 amorphous alloys', 'authors': 'S. Spriano;M. Baricco;C. Antonione;E. Angelini;F. Rosalbino;P. Spinelli', 'journal': 'Electrochimica Acta', 'year': '1994'};{'id': 'j_9c9f73bbc926b0022c1252253d4c0d83', 'zh_title': 'CHEMICAL KINETICS OF THE ZIRCONIUM��HYDROFLUORIC ACID REACTION1', 'authors': 'W. J. James;W. G. Custead;M. E. Straumanis', 'journal': 'The Journal of Physical Chemistry', 'year': '1960'};{'id': 'j_8a47bec09b5619021aea5d51bb2984cf', 'zh_title': 'Electrochemical properties of TiMn2-type alloys ball-milled with nickel powder', 'authors': 'Ming Au;F. Pourarian;S. Simizu;S.G. Sankar;Lian Zhang', 'journal': 'Journal of Alloys and Compounds', 'year': '1995'};{'id': 'j_e1e4ec1745706fbb9cdf160163401d57', 'zh_title': 'Advances in Catalysis]  Volume 36 || New Catalytic Materials from Amorphous Metal Alloys', 'authors': 'Moln��ar, ��rp��d', 'journal': 'Advances in Catalysis', 'year': '1989'};{'id': 'j_e5249c29a6c882f707135806739e4b44', 'zh_title': 'Electrochemical and XPS measurements on thin oxide films on zirconium', 'authors': 'P. Meisterjahn;H.W. Hoppe;J.W. Schultze', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1987'};{'id': 'j_24b46c203eb35ee887b1c4f384839946', 'zh_title': 'Anodic characteristics of amorphous nickel-value metal alloys containing small amounts of platinum group elements in 0.5 M NaCl', 'authors': 'N. Kumagai;Y. Samata;A. Kawashima;K. Asami;K. Hashimoto', 'journal': 'Journal of Applied Electrochemistry', 'year': '1987'}","{'person_id': 'dee6e51d259bcd43f42f41dd07fa4980', 'orcid': ' ', 'name': 'S. Daolio', 'email': '', 'org_name': 'IPELP - CNR, Corso Stati Uniti 4, Padova, Italy', 'org_id': ' ', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'eae6a4da2018bc64edd9ab290f3e5926', 'orcid': ' ', 'name': 'M. Fabrizio', 'email': '', 'org_name': 'IPELP - CNR, Corso Stati Uniti 4, Padova, Italy', 'org_id': ' ', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '89ae2db5e296393ce074633b439b1f4c', 'orcid': 'https://orcid.org/0000-0002-2856-9894', 'name': 'Marcello Baricco', 'email': '', 'org_name': 'University of Turin', 'org_id': '43c46db84c7eb900130e0059e4868535', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'a41595e8794415afd05fcb5bbcec4162', 'orcid': ' ', 'name': 'Carlo Antonione', 'email': '', 'org_name': 'Polytechnic University of Turin', 'org_id': ' ', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '060e728fce63304f668c66ea6ac04013', 'orcid': 'https://orcid.org/0000-0002-2091-5676', 'name': 'Francesco Rosalbino', 'email': '', 'org_name': 'Polytechnic University of Turin', 'org_id': ' ', 'author_num': 6, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '2528df815ca77dfbe5c4571de69dce95', 'orcid': ' ', 'name': 'Emma Paola Maria Virginia Angelini', 'email': '', 'org_name': 'Polytechnic University of Turin', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_0297843eed6cd5b2653f2e3e1911f465,10.1002/(sici)1097-4628(19980829)69:9<1681::aid-app1>3.0.co;2-7,Quantitative study of photocatalyzed oxidation of ethylene-propylene rubber and atactic polypropylene,1998,J. Lacoste;P. Ladsous;M. Dieppedale;R. Arnaud,J. Lacoste,TRUE,1998/8/29,69,9,1681,1689,0021-8995;1097-4628,"The effect of photoactive pigments such as ZnO, CdS, and TiO 2 on the photooxidation ( with and without water vapor) of ethylene-propylene rubber and atactic polypropylene were examined. The effects of surface treatment (passivation) and low granulometry (nanopigments) were also studied for TiO 2 . A drastic increase of ketone and an inhibition of carboxylic acid formation for ZnO filled polymers were revealed and quantitatively measured by using derivatization reactions. Such a phenomenon, as well as a small decrease of average molecular weight, were explained by a modification of the ZnO decomposition mechanism of tertiary hydroperoxides.",Materials Science,Journal of Applied Polymer Science,Crossref;corpus;unpaywall;openalex;scimag,8,0,FALSE,,closed,�߷��ӿ�ѧ,"{'org_name': '����Ɲ?��˹����W', 'org_id': '77381135df3664beb34ed8bfa8bf6c75'}","{'id': 'j_b95dea7eb4c86a741d3b18edacf91e8e', 'zh_title': 'Photo-oxidative degradation of poly(epichlorohydrin-co-ethylene oxide) elastomer at 254 nm', 'authors': 'Mauro A. Soto-Oviedo;Marco-A. De Paoli', 'journal': 'Polymer Degradation and Stability', 'year': '2002'};{'id': 'j_7fb76f5900a33b35cbf03371b56fde76', 'zh_title': 'Thermooxidative degradation of crosslinked EVA/EPDM copolymers: Impact of Aluminium TriHydrate (ATH) filler incorporation', 'authors': 'Juliette Colombani;Ahmedou Sidi;Jean-Fran?ois Larch��;Christine Taviot-Gueho;Agn��s Rivaton', 'journal': 'Polymer Degradation and Stability', 'year': '2018'};{'id': 'j_ed5df53b22919b2561bdc331d02456c6', 'zh_title': 'EPDM recycling assisted by ��-processing', 'authors': 'Traian Zaharescu;Ludmila I. P. Kayan;Marius Eduard Lungulescu;Declerc F. Parra;Ademar B. Lug?o', 'journal': 'Iranian Polymer Journal', 'year': '2016'};{'id': 'j_02c74c1a44a13b99c712ea54808df8f5', 'zh_title': 'Bibliography of Work on the Heterogeneous Photocatalytic Removal of Hazardous Compounds from Water', 'authors': 'D. M. Blake', 'year': '1999'};{'id': 'j_c555d2d0d1286aa4c6edf11a3b846131', 'zh_title': 'Effect of dicumyl peroxide crosslinking on the UV stability of ethylene-propylene-diene (EPDM) elastomers containing 5-ethylene-2-norbornene (ENB)', 'authors': 'Emile A. Snijders;Arjen Boersma;Ben van Baarle;Pieter Gijsman', 'journal': 'Polymer Degradation and Stability', 'year': '2005'};{'id': 'j_890675485be0e94efe9fc30d619f42d8', 'zh_title': 'Handbook of Material Weathering || DATA ON SPECIFIC POLYMERS', 'authors': 'Wypych, George', 'year': '2013'};{'id': 'j_f22eae6f870a79bdd941d4297250bcd1', 'zh_title': 'Effect of third monomer type and content on the UV stability of EPDM', 'authors': 'Emile A. Snijders;Arjen Boersma;Ben van Baarle;Jacques Noordermeer', 'journal': 'Polymer Degradation and Stability', 'year': '2005'};{'id': 'j_ab6880880ac9d45e812c6840fea2df93', 'zh_title': 'Handbook of Material Weathering || EFFECT OF ADDITIVES ON WEATHERING', 'authors': 'Wypych, George', 'year': '2013'}",{},"{'person_id': 'ee6d136b9080749dfe71ae6dd7b1f8dd', 'orcid': ' ', 'name': 'M. Dieppedale', 'email': '', 'org_name': 'Institut Pascal', 'org_id': 'dec896329f010d67853f01488ae96c0c', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'dbff3f1eebada8f54c9fb3327a365680', 'orcid': ' ', 'name': 'Ren�� Arnaud', 'email': '', 'org_name': 'Institut Pascal', 'org_id': 'dec896329f010d67853f01488ae96c0c', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '77c8ac50dcff44f286c301c6945c5e64', 'orcid': ' ', 'name': 'Jacques Lacoste', 'email': '', 'org_name': 'Institut Pascal', 'org_id': 'dec896329f010d67853f01488ae96c0c', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '568c761197c703740b8436cfa42b4819', 'orcid': ' ', 'name': 'P. Ladsous', 'email': '', 'org_name': 'Institut Pascal', 'org_id': 'dec896329f010d67853f01488ae96c0c', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_2f184b12ac90cc28e8c6ac84097388b1,10.1002/(sici)1097-4628(19991114)74:7<1623::aid-app3>3.0.co;2-z,Uncatalyzed photografting of polyacrylamide from functionalized cellulosic and lignocellulosic materials,1999,Rupali Gangopadhyay;Premamoy Ghosh,Rupali Gangopadhyay,TRUE,1999/11/14,74,7,1623,1634,0021-8995;1097-4628,"Photoinitiated graft copolymerization of polyacrylamide (PAAm) occurred on one cellulosic (cotton fabric) and one lignocellulosic (sisal fiber) substrate using a novel photocatalytic system. The samples were photoexposed with oxalic acid solutions, differing in acid concentrations, which functionalized the backbone materials to different extents with carboxyl groups, and at the same time rendered them photoactive. Afterwards, the functionalized samples were again photoexposed with monomer (AAm) solution and photografting was found to take place without any initiator from outside. The effects of increased acid dose level and increased monomer concentration on different grafting parameters were measured. The graft copolymer formation was confirmed by FTIR and DSC studies; XRD and SEM techniques were applied for morphological studies. Textile-related properties, namely tensile properties, moisture regain, and dye uptake properties of both the ungrafted and grafted materials were also measured using proper instruments and techniques. ? 1999 John Wiley & Sons, Inc. J Appl Polym Sci 74: 1623�C1634, 1999",Materials Science,Journal of Applied Polymer Science,Crossref;corpus;unpaywall;openalex;scimag,14,12,FALSE,,closed,�߷��ӿ�ѧ,"{'org_name': '�Ӷ������ѧ', 'org_id': '8894646937e69380a235a7c724abd428'};{'org_name': 'Saha Institute of Nuclear Physics', 'org_id': '23f1f491c5aa36b3acf54f7c119b7357'}","{'id': 'j_704f9340432d1cbc3918e54f1344c497', 'zh_title': 'Effect of graft copolymerization of fir sawdust lignocellulose with N-vinylpyrrolidone on adsorption capacity to tea catechins', 'authors': 'J.H. Ye;J.J. Dong;J.L. Lu;X.Q. Zheng;J. Jin;H. Chen;Y.R. Liang', 'journal': 'CARBOHYDRATE POLYMERS', 'year': '2010'};{'id': 'j_67165ca09b4b1c1c367cc8643c4cb23c', 'zh_title': 'Characterization of Methyl Methacrylate Grafting onto Preirradiated Biodegradable Lignocellulose Fiber by?-Radiation', 'authors': 'Ferdous Khan', 'journal': 'Macromolecular bioscience', 'year': '2005'};{'id': 'j_e100b8c4d2f8b63f6755178a73cf55f7', 'zh_title': 'Graft copolymerization of acrylamide onto bamboo rayon and fibre dyeing with acid dyes', 'authors': 'Mangesh D. Teli;Javed Sheikh', 'journal': 'Iranian Polymer Journal', 'year': '2011'};{'id': 'j_8cb600215e7c2e54ff9c8901822bdc19', 'zh_title': 'rSynthesis and characterization of graft copolymerized acrylonitrile onto cellulose prepared from sisal fibre', 'authors': 'T.  Hajeeth;T.  Gomathi;K.  Vijayalakshmi;P. N. Sudha', 'journal': 'Macromolecules: An Indian Journal', 'year': '2014'};{'id': 'j_4dbafb72275eeafd665f74ca1e949d03', 'zh_title': 'Jute felt composite from lignin modified phenolic resin', 'authors': 'Sanjay Sarkar;Basudam Adhikari', 'journal': 'Polymer Composites', 'year': '2001'};{'id': 'j_3abb50318bb68e10c75daad8c165b5e3', 'zh_title': 'Optimized conditions for the grafting reaction of poly(methyl acrylate) onto rubberwood fiber', 'authors': 'Faraj A Abu-Ilaiwi;Mansor B Ahmad;Nor Azowa Ibrahim;Mohamad Zaki Ab Rahman;Khairul Zaman Md Dahlan;Wan Md Zin Wan Yunus', 'journal': 'Polymer International', 'year': '2004'};{'id': 'j_1dd865e4a65a26c4b56d84142c0e1cc2', 'zh_title': 'Developments and new applications of UV-induced surface graft polymerizations', 'authors': 'J DENG;L WANG;L LIU;W YANG', 'journal': 'Progress in Polymer Science', 'year': '2009'};{'id': 'j_bb994fb17fd01d6b14b621585e066acd', 'zh_title': 'Flexural and Impact Properties of Poly (Vinyl Chloride) and Acrylic-Impact Modified Poly (Vinyl Chloride) Composite Filled with Poly (Methyl Methacrylate) Grafted to Oil Palm Empty Fruit Bunches', 'authors': 'Aznizam Abu Bakar;Kee Wee Cheng;Siti Waqina Abdul Ghani', 'journal': 'International Journal of Polymeric Materials', 'year': '2012'};{'id': 'j_5978a78b8002d5bc6e9dc24ed71b0233', 'zh_title': 'Banana (Musa sp. cv. Pacovan) Pseudostem Fibers are Composed of Varying Lignocellulosic Composition throughout the Diameter', 'authors': 'Andr�� Lu��s S. Pereira;Diego M. Nascimento;Men de S�� M. Souza Filho;Ana Ribeiro Cassales;Jo?o P. S. Morais;Regina C. M. Paula;Morsyleide F. Rosa;Judith P. A. Feitosa', 'journal': 'BioResources', 'year': '2014'};{'id': 'j_3c68dbe39b8a2a6bfe201417157e9a43', 'zh_title': 'Photo-mediated metal free atom transfer radical polymerization of acrylamide in water', 'authors': 'Lichao Liu;Yongsub Yi', 'journal': 'Journal of Applied Polymer Science', 'year': '2018'};{'id': 'j_b62dbb1b29266ce887f0e4e8f6940d95', 'zh_title': 'Uncatalysed photografting of poly(methyl methacrylate) from photofunctionalised sisal fibre', 'authors': 'Rupali Gangopadhyay;Premamoy Ghosh', 'journal': 'European Polymer Journal', 'year': '2000'};{'id': 'j_b9114b16795ff62876b4643995d6a14f', 'zh_title': 'Optimized conditions for graft copolymerization of poly(acrylamide) onto rubberwood fibre.', 'authors': 'Mahnaz  Mahdavi;Mansor Bin Ahmad;Jelas  Haron;Mohamad Zaki Ab. Rahman;Asma  Fatehi', 'journal': 'Bioresources', 'year': '2011'};{'id': 'j_2d496d992d1eee67a5b4db1674ffafeb', 'zh_title': 'Optimized conditions for the grafting reaction of poly(methyl methacrylate) onto oil-palm empty fruit bunch fibers', 'authors': 'Aznizam Abu Bakar;Nik Sulaiman Nik Mat;Mohd Kamaruddin Isnin', 'journal': 'Journal of Applied Polymer Science', 'year': '2008'};{'id': 'j_701de6cd9e46741ef77e96bb507c4b36', 'zh_title': 'Graft copolymerization of methyl methacrylate onto rubber-wood fiber using H2O2 and Fe2+ as an initiator system', 'authors': 'Faraj A. Abu-Ilaiwi;Mansor B. Ahmad;Nor Azowa Ibrahim;Mohamad Zaki Ab. Rahman;Khairul Zaman Md. Dahlan;Wan Md. Zin Wan Yunus', 'journal': 'Journal of Applied Polymer Science', 'year': '2003'}","{'id': 'j_e57028d9fab77e699feb4fbfd69ee338', 'zh_title': 'Adsorption of calcium ions by graft copolymer of acrylic acid on biopolymer chitin', 'authors': 'Ligia Furlan;Valfredo T. de F��vere;Mauro C.M. Laranjeira', 'journal': 'Polymer', 'year': '1996'};{'id': 'j_6d5a8933ce4a758e6d6f444a2ce55c7b', 'zh_title': 'Graft copolymerization of vinyl monomers with modified cotton. II. Grafting of acrylonitrile and methyl methacrylate on acetylated cotton', 'authors': 'A. Hebeish;A. Kantouch;M. H. El-Rafie', 'journal': 'Journal of Applied Polymer Science', 'year': '1971'};{'id': 'j_518714ce9a4627243204ebf16218328f', 'zh_title': 'Graft copolymerization of mixtures of acrylamide and methyl methacrylate on dialdehyde cellulose (DAC) from cotton in a limited aqueous system', 'authors': 'Premamoy Ghosh;Debaprasad Dev', 'journal': 'European Polymer Journal', 'year': '1996'};{'id': 'j_fa77ba2fd655f4b9c5ddd9b443c7f20f', 'zh_title': 'Graft copolymerization of acrylamide on cotton cellulose in a limited aqueous system following pretreatment technique', 'authors': 'P. Ghosh;D. Dev;A. K. Samanta', 'journal': 'Journal of Applied Polymer Science', 'year': '1995'};{'id': 'j_a5dc65d9f341280d954801d9c7617083', 'zh_title': 'Grafting Acrylic Acid Monomer on Cellulosic Materials', 'authors': 'E. F. Okieimen;J. E. Ebhoaye', 'journal': 'Journal of Macromolecular Science: Part A - Chemistry', 'year': '1986'};{'id': 'j_f2a6ddfc2ed45890a68d5aeb3c5fb758', 'zh_title': 'Radiation-induced graft copolymerization of mixtures of styrene and acrylamide onto cellulose acetate. I. Effect of solvents', 'authors': 'S. N. Bhattacharyya;D. Maldas', 'journal': 'Journal of Polymer Science Part A', 'year': '1982'};{'id': 'j_f933d04b8e11a7eec100fc39506a3bb3', 'zh_title': 'Formation of free radicals in photoirradiated cellulose. VI. Effect of lignin', 'authors': 'Nyok-Sai Hon', 'journal': 'Journal of Polymer Science Part A', 'year': '1975'};{'id': 'j_35e856d17193f8a7e99b879949effdb5', 'zh_title': 'Polyacrylonitrile (PAN)-grafted jute fibres: Some physical and chemical properties and morphology', 'authors': 'Premamoy Ghosh;Prasanta K. Ganguly', 'journal': 'Journal of Applied Polymer Science', 'year': '1994'};{'id': 'j_1c85ef2cd0f15dadea133c854da5a8bc', 'zh_title': 'Thermal Analysis of Chemically Treated Jute Fibers', 'authors': 'S.N. Pandey;A. Day;M.D. Mathew', 'journal': 'Textile Research Journal', 'year': '1993'};{'id': 'j_d9eb34beb285b99329d41db4586c7f27', 'zh_title': 'Chemically initiated graft copolymerization of acrylic acid onto acrylonitrile-butadiene-styrene (ABS) terpolymer and its constituent polymers', 'authors': 'Jayakody A. Chandrasiri;Charles A. Wilkie', 'journal': 'Journal of Polymer Science Part A', 'year': '1996'};{'id': 'j_a7e0f50b9350891fdc5f7a31cc9cb64d', 'zh_title': 'Cationic graft copolymerization of tetrahydrofuran onto bromodeoxycellulose', 'authors': 'Nobuyoshi Aoki;Ken-Ichi Furuhata;Munenori Sakamoto', 'journal': 'Journal of Applied Polymer Science', 'year': '1994'};{'id': 'j_a198ab192cbb1c00fccd31d43a3b3b38', 'zh_title': 'Studies on the grafting of acrylic acid on starch', 'authors': 'F.E. Okieimen;J.E. Nkumah;F. Egharevba', 'journal': 'European Polymer Journal', 'year': '1989'}","{'person_id': 'd8d09b132a19a3acddc56130408c9d01', 'orcid': ' ', 'name': 'Rupali Gangopadhyay', 'email': '', 'org_name': 'Saha Institute of Nuclear Physics', 'org_id': '23f1f491c5aa36b3acf54f7c119b7357', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'f13e4d502b22d389f2fd28334924f969', 'orcid': ' ', 'name': 'Premamoy Ghosh', 'email': '', 'org_name': 'University of Calcutta', 'org_id': 'd472ba84714d55332cd14809c6f21983', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_79c1d002151b8ac9f40f1637b8bf1068,10.1002/(sici)1097-4628(20000705)77:1<112::aid-app15>3.0.co;2-t,"Poly(benzimidazole) and substituted poly(benzimidazoles): Novel, electroactive, and conducting polymers possessing high catalytic and coordination properties",2000,Shaheen Taj;S. Sankarapapavinasam;M. F. Ahmed,Shaheen Taj,TRUE,2000/7/5,77,1,112,115,0021-8995;1097-4628,"Benzimidazoles and substituted benzimidazoles were electropolymerized on a Pt electrode using acetonitrile containing 0.1 MNaClO4. The polymers are electroactive and conducting. They have a high electrocatalytic effect on the reduction of H+, O2, and CO2 and exhibit high coordination ability. The properties of the polymers depend on the extent of conjugation in the monomer. ? 2000 John Wiley & Sons, Inc. J Appl Polym Sci 77: 112�C115, 2000",Chemistry,Journal of Applied Polymer Science,Crossref;corpus;unpaywall;openalex;scimag,4,17,FALSE,,closed,�߷��ӿ�ѧ,"{'org_name': 'Commerce College, Jaipur', 'org_id': 'f10d9d488718bbaba41193344a24823a'};{'org_name': 'Bangalore University', 'org_id': '0d5c34e7cbf81418c94ecdb59d716a00'};{'org_name': '����_����W', 'org_id': '984e068cf52e6df0e9d25cdeb7ddb768'}","{'id': 'j_534ae5e16b5c383cb619b58289c44f89', 'zh_title': 'Synthesis and electropolymerization of tetra-��-(2-benzimidazole)] and tetra-[��-(2-(1-(4- aminophenyl))benzimidazole)] embedded cobalt phthalocyanine and their supercapacitance behaviour', 'authors': 'Nemakal Manjunatha;Mohammed Imadadulla;Koodlur Sannegowda Lokesh;K.R. Venugopala Reddy', 'journal': 'Dyes and Pigments', 'year': '2018'};{'id': 'j_1ad5e20bac90bb52e6b116768bf696ff', 'zh_title': 'An Enzyme-free H2\nO2\n Sensor Based on Poly(2-Aminophenylbenzimidazole)/Gold Nanoparticles Coated Pencil Graphite Electrode', 'authors': 'Mine ?en Teker;Erhan Karaca;Nuran ?z?i?ek Pekmez;U?ur Tamer;Kadir Pekmez', 'journal': 'Electroanalysis', 'year': '2018'};{'id': 'j_d4d695126d8b76b4a765c91b1687837a', 'zh_title': 'Fascinating variability in the chemistry and properties of 2,6-bis-(benzimidazol-2-yl)-pyridine and 2,6-bis-(benzthiazol-2-yl)-pyridine and their complexes', 'authors': 'Miroslav Bo?a;Reginald F. Jameson;Wolfgang Linert', 'journal': 'Coordination Chemistry Reviews', 'year': '2011'};{'id': 'j_42e15a81ed8d027a1ca200cc5aaf2f87', 'zh_title': 'Electrochemical codeposition of gold particle�Cpoly(2-(2-pyridyl) benzimidazole) hybrid film on glassy carbon electrode for the electrocatalytic oxidation of nitric oxide', 'authors': 'A.M. Vinu Mohan;K.K. Aswini;V.M. Biju', 'journal': 'Sensors and Actuators B: Chemical', 'year': '2014'}","{'id': 'j_89b3766b3fc0cd43c15da6b399fd6a40', 'zh_title': 'Synthesis and properties of poly(2,5-thienylene)', 'authors': 'John W-P. Lin;Lesley P. Dudek', 'journal': 'Journal of Polymer Science Part A', 'year': '1980'};{'id': 'j_44eecb0496ef53e5ac8cedbdb129fd2c', 'zh_title': 'An electroactive polymer film prepared by electrooxidative polymerization of p,p��-biphenol', 'authors': 'Takeo Ohsaka;Fumihiro Yoshimura;Tomoaki Hirokawa;Noboru Oyama', 'journal': 'Journal of Polymer Science: Polymer Letters Edition', 'year': '1987'};{'id': 'j_483cc2f14eb338bf55ac38fd54716fff', 'zh_title': 'Complexes of titanium(IV), vanadium(IV) and tin(IV) with schiff bases derived from 2-(2-aminophenyl)benzimidazole', 'authors': 'Pilar Souza;Jos? A. Garc?a-V?zquez;Jos? R. Masaguer;Agueda Arquero', 'journal': 'Transition Metal Chemistry', 'year': '1986'};{'id': 'j_de5da6c27f1451c929d723cf7d504b13', 'zh_title': 'Infrared and Raman studies of heterocyclic compounds��II Infrared spectra and normal vibrations of benzimidazole and bis-(benzimidazolato)-metal complexes', 'authors': 'M.M. Cordes;J.L. Walter', 'journal': 'Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy', 'year': '1968'};{'id': 'j_c6f15200d3304185370134e7e4e77a30', 'zh_title': 'Simultaneous Raman Spectroscopy and Electrochemical Studies of Corrosion Inhibiting Molecules on Copper', 'authors': 'D. Thierry;C. Leygraf', 'journal': 'Journal of The Electrochemical Society', 'year': '1985'};{'id': 'j_88e1e6c5e1ce0402c24ef04943887536', 'zh_title': 'Infrared Absorption Spectroscopy', 'authors': 'Koji  Nakanishi', 'year': '1977'};{'id': 'j_aa1d87e5c1707eb1c48ca4ec27721449', 'zh_title': 'Blue Emitting Phosphors for Projection Cathode Ray Tubes: and', 'authors': 'D. M. de Leeuw;C. A. H. 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+j_e1ceb1eeab56d5f45babe45abdb1ffb2,10.1002/(sici)1097-4660(199611)67:3<237::aid-jctb567>3.0.co;2-4,"Photocatalyzed Degradation of Phenol, 2,4-Dichlorophenol, Phenoxyacetic Acid and 2,4-Dichlorophenoxyacetic Acid over SupportedTiO2 in a Flow System",1996,Maria Trillas;Jos�� Peral;Xavier Dom��nech,Maria Trillas,TRUE,1996/11/1,67,3,237,242,0268-2575;1097-4660,"The photodegradation of phenol, 2,4-dichlorophenol, phenoxyacetic acid and 2,4-dichlorophenoxyacetic acid using TiO 2 as photocatalyst is investigated. The photodegradations of these compounds have been conducted in a continuous mode by means of a flow system, in which TiO 2 remains fixed onto glass pearls. The use of this system gives high yields of degradation for the chemicals tested, except for 2,4-dichlorophenol for which a slow dechlorination process is observed. The rate of photodegradation depends on the pH of the solution, the point of zero charge of TiO 2 and the pK a of the chemicals being the key parameters. The main aromatic intermediates detected have been hydroquinone, paraquinone and hydrohydroquinone during phenol degradation ; phenol and hydroquinone during phenoxyacetic acid degradation ; chlorohydroquinone and chlorophenol during 2,4-dichlorophenol degradation ; and dichlorophenol during 2,4-dichlorophenoxyacetic acid degradation. Finally, some long term irradiations with phenol as model compound have been performed, showing high degrees of photodegradation. It has been observed that only a periodic evacuation of the effluent out of the reactor is needed to sustain high percentages of photodegradation.",Chemistry,Journal of Chemical Technology &amp; Biotechnology,Crossref;corpus;unpaywall;openalex;scimag,77,0,FALSE,,closed,,{},"{'id': 'j_5fd9a0b2dd06f3b8a9706f1240dccedc', 'zh_title': 'Photodegradation of dichloroacetic acid and 2,4-dichlorophenol by ferrioxalate/H2O2 system', 'authors': 'R Pupo Nogueira', 'journal': 'Water Research', 'year': '2000'};{'id': 'j_3ebc412382209605bb1ffdd37a235fea', 'zh_title': 'Single-step preparation of Ni catalysts supported on mesoporous silicas (SBA-15 and SBA-16) and the effect of pore structure on the selective hydrodechlorination of 1,1,2-trichloroethane to VCM', 'authors': 'Younggeun Park;Taewook Kang;Jaeho Lee;Pil Kim;Heesoo Kim;Jongheop Yi', 'journal': 'Catalysis Today', 'year': '2004'};{'id': 'j_6a000011aa6dec10ec54ce4b6f723707', 'zh_title': 'Mineralization of 2,4-D by advanced electrochemical oxidation processes', 'authors': 'E Brillas', 'journal': 'Water Research', 'year': '2000'};{'id': 'j_d6975ba18a2aefd20bb369a5831e76f7', 'zh_title': 'Vapour phase catalytic hydrodechlorination of chlorobenzene over Ni�Ccarbon composite catalysts', 'authors': 'N Lingaiah;Md.A Uddin;A Muto;T Iwamoto;Yusaku Sakata;Y Kusano', 'journal': 'Journal of Molecular Catalysis A-chemical', 'year': '2000'};{'id': 'j_2f4fdfe8a757319168a1baa66dd871eb', 'zh_title': 'Mineralization of herbicide 3,6-dichloro-2-methoxybenzoic acid in aqueous medium by anodic oxidation, electro-Fenton and photoelectro-Fenton', 'authors': 'Enric Brillas;Miguel ��ngel Ba?os;Jos�� Antonio Garrido', 'journal': 'Electrochimica Acta', 'year': '2003'};{'id': 'j_71fe92cd1992a707dc6ac8e848e5f29b', 'zh_title': 'Separation of Re(VII) from aqueous solution by acetone-enhanced photoreduction: an insight into the role of acetone', 'authors': 'Yi Wang;Zhihao Wu;Hanqin Weng;Xuchen Ding;Lan Wang;Fuhai Li;Yaxiong Wei;Sheng Cheng;Shinichi Yamashita;Mingzhang Lin', 'journal': 'Journal of Photochemistry and Photobiology A: Chemistry', 'year': '2019'};{'id': 'j_412fc32f2f21d5f6bdf7791985c04f9b', 'zh_title': 'Highly Active and Stable Material for Catalytic Hydrodechlorination Using Ammonia-Treated Carbon Nanofibers as Pd Supports', 'authors': 'Qiang Liu;Zhi-Min Cui;Zhuo Ma;Shao-Wei Bian;Wei-Guo Song', 'journal': 'Journal of Physical Chemistry C', 'year': '2008'};{'id': 'j_4600e0d8bae5a6b38e2936b64c8db9fb', 'zh_title': 'Photocatalytic degradation of an azo dye in a tubular continuous-flow photoreactor with immobilized TiO2 on glass plates', 'authors': 'M.A. Behnajady;N. 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Yin;S. Uchida;Y. Fujishiro;M. Aki;T. Sato', 'journal': 'Journal of Materials Chemistry', 'year': '1999'};{'id': 'j_d0e17fb7e14ea8b6f509a661f7ee4310', 'zh_title': 'Synthesis, structure and photocatalytic reactivity of layered CdS/H2La2Ti3O10 nanocomposites', 'authors': 'Lili Zhang;Weiguang Zhang;Lude Lu;Xujie Yang;Xin Wang', 'journal': 'JOURNAL OF MATERIALS SCIENCE', 'year': '2006'};{'id': 'j_86cffa5fda0d3830cf9ecbcf5f0134fc', 'zh_title': 'Synthesis and photocatalytic properties of CdS-intercalated metal oxides', 'authors': 'Wenfeng Shangguan;Akira Yoshida', 'journal': 'Solar Energy Materials and Solar Cells', 'year': '2001'};{'id': 'j_367a0df9c797433337e58c592992a6c7', 'zh_title': 'Preparation of high performance fibrous titania photocatalysts by the solvothermal reaction of protonated form of tetratitanate', 'authors': 'Peilin Zhang;Shu Yin;Valery Petrykin;Masato Kakihana;Tsugio Sato', 'journal': 'Journal of Molecular Catalysis A: Chemical', 'year': '2009'};{'id': 'j_edc119d6a5eb783ab255843e258e7078', 'zh_title': 'Hydrothermal synthesis of HNbWO6/MO series nanocomposites and their photocatalytic properties', 'authors': 'Jihuai Wu; Shu Yin; Yu Lin; Jianming Lin; Miaoliang Huang; Tsugio Sato', 'journal': 'Journal of Materials Science', 'year': '2001'};{'id': 'j_664f9be9ba9cb38df33b44bc56f503ab', 'zh_title': 'Synthesis and Photocatalytic Property of Hectorite/(Pt, TiO2) and H4Nb6O17/(Pt, TiO2) Nanocomposites', 'authors': 'Sambandan Ekambaram;Masaru Yanagisawa;Satoshi Uchida;Yoshinobu Fujishiro;Tsugio Sato', 'journal': 'Molecular Crystals and Liquid Crystals Science and Technology. Section A. 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S. Zhao', 'journal': 'RSC Adv.', 'year': '2014'};{'id': 'j_e8cb95ed89cac6e00c6820355d69829c', 'zh_title': 'Electrophoretic deposition of negatively charged tetratitanate nanosheets and transformation into preferentially oriented TiO2(B) film', 'authors': 'Wataru Sugimoto;Osamu Terabayashi;Yasushi Murakami;Yoshio Takasu', 'journal': 'Journal of Materials Chemistry', 'year': '2002'};{'id': 'j_c651c935a3f5b91a2ad8edc84bcaba20', 'zh_title': 'Facile one pot in situ synthesis of ZnS�CZnIn2S4 composite for improved photocatalytic applications', 'authors': 'R. Janani;Ambrose A. Melvin;Shubra Singh', 'journal': 'Materials Science in Semiconductor Processing', 'year': '2021'};{'id': 'j_60aff693a9c351d6459744d3d9609d91', 'zh_title': 'Synthesis of Pt/LDH Nanocomposites by Chemical Modification of Layered Double Hydroxides', 'authors': ""Lukashin, A. V.; Chernysheva, M. V.; Vertegel, A. A.; Tret'yakov, Yu. D. "", 'journal': 'Doklady Chemistry', 'year': '2003'};{'id': 'j_6c35b4a1033417098f16b3870c44e513', 'zh_title': 'Cocatalyst-Free Photocatalysts for Efficient Visible-Light-Induced H2 Production: Porous Assemblies of CdS Quantum Dots and Layered Titanate Nanosheets', 'authors': 'Hyo Na Kim;Tae Woo Kim;In Young Kim;Seong-Ju Hwang', 'journal': 'Advanced Functional Materials', 'year': '2011'};{'id': 'j_9b1cb199e04398918fca4139e9bde85e', 'zh_title': 'Synthesis, characterization of CdS/rectorite nanocomposites and its photocatalytic activity', 'authors': 'Jiangrong Xiao;Tianyou Peng;Dingning Ke;Ling Zan;Zhenghe Peng', 'journal': 'PHYSICS AND CHEMISTRY OF MINERALS', 'year': '2007'};{'id': 'j_52ed206e40677222358b42f98b9c7219', 'zh_title': 'Synthesis and photochemical properties of Cd0.8Zn0.2S pillared H1?xCa2?xLaxNb3O10', 'authors': 'Yasuhiko Fukugami;Tsugio Sato', 'journal': 'Journal of Alloys and Compounds', 'year': '2000'};{'id': 'j_c5afe27fb86532209f9c8db1f04e028c', 'zh_title': 'A study of scale effect on specific sediment yield in the Loess Plateau, China', 'authors': 'YunXia Yan;JiongXin Xu', 'journal': 'SCIENCE IN CHINA SERIES D-EARTH SCIENCES', 'year': '2007'};{'id': 'j_40c502899504ab7e5b096dc86a529bbd', 'zh_title': 'Colloid chemical characterisation of layered titanates, their hydrophobic derivatives and self-assembled films', 'authors': 'Szilvia Papp;Imre D��k��ny', 'journal': 'Colloid and Polymer Science', 'year': '2005'};{'id': 'j_cc2a7599ddda01d2b1080c1d8f2b1fce', 'zh_title': 'Hydrogen production from water splitting on CdS-based photocatalysts using solar light', 'authors': 'Xiaoping Chen;Wenfeng Shangguan', 'journal': 'Frontiers in Energy', 'year': '2013'};{'id': 'j_e981739a8c651f375e0fba3db15fc4dc', 'zh_title': 'Fabrication and Photocatalytic Properties of HLaNb2O7/(Pt, Fe2O3) Pillared Nanomaterial', 'authors': 'Jihuai Wu;Yinghan Cheng;Jianming Lin;Yunfang Huang;Miaoliang Huang;Shancun Hao', 'journal': 'The Journal of Physical Chemistry C', 'year': '2007'};{'id': 'j_fb5c771e823989b91586ac3deb91e6e0', 'zh_title': 'Synthesis and photocatalytic properties of HNbWO6/TiO2 and HNbWO6/Fe2O3 nanocomposites', 'authors': 'Jihuai Wu;Satoshi Uchida;Yoshinobu Fujishiro;Shu Yin;Tsugio Sato', 'journal': 'Journal of Photochemistry and Photobiology A: Chemistry', 'year': '1999'};{'id': 'j_9bb68b488aad3133b161eb6174b9a18e', 'zh_title': 'Characterization and Photocatalytic Activity of TiO2(rod)-SiO2-Polyaniline Nanocomposite', 'authors': 'Sri Wahyuni;Eko Sri Kunarti;Respati Tri Swasono;Indriana Kartini', 'journal': 'Indonesian Journal of Chemistry', 'year': '2018'}",{},"{'person_id': 'e2e0e7f51bb043cded35eee2f17044c9', 'orcid': 'https://orcid.org/0000-0002-8570-6517', 'name': 'Yoshinobu Fujishiro', 'email': '', 'org_name': 'Tohoku University', 'org_id': 'd5e82ab83d0122cee81904581411952b', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '139e1221a5e67d5ea2c2a082ce149ce3', 'orcid': ' ', 'name': 'Tsugio Sato', 'email': '', 'org_name': 'Tohoku University', 'org_id': 'd5e82ab83d0122cee81904581411952b', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'bba8d3d3ec4b2c234fc83821425ebeda', 'orcid': ' ', 'name': 'Akitsugu Okuwaki', 'email': '', 'org_name': 'Tohoku University', 'org_id': 'd5e82ab83d0122cee81904581411952b', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '73517bddb655da5c1ec2a7b513e4678f', 'orcid': ' ', 'name': 'Ken Ichi Sato', 'email': '', 'org_name': 'Tohoku University', 'org_id': 'd5e82ab83d0122cee81904581411952b', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'cc223323dd75d27c990ee989195aa46c', 'orcid': ' ', 'name': 'Katsuhiko Masaki', 'email': '', 'org_name': 'Tohoku University', 'org_id': 'd5e82ab83d0122cee81904581411952b', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_e74c685db05bae04423bbfabb4f10a8e,10.1002/(sici)1097-4660(199612)67:4<345::aid-jctb586>3.0.co;2-#,Photochemical reduction of nitrate to ammonia using layered hydrous titanate/cadmium sulphide nanocomposites,1996,Tsugio Sato;Ken�\ichi Sato;Yoshinobu Fujishiro;Toshiaki Yoshioka;Akitsugu Okuwaki,Tsugio Sato,TRUE,1996/12/1,67,4,345,349,0268-2575;1097-4660,"The photocatalytic activity of H2Ti4O9/CdS nanocomposites incorporating CdS particles, less than 0��8 nm thick, in the interlayer of H2Ti4O9 was evaluated for the reduction of NO3? with and without methanol. NO3? was photochemically reduced by bandgap illumination in the presence of H2Ti4O9/CdS nanocomposites with and without methanol although unsupported CdS showed no noticeable photocatalytic activity for NO3? reduction. The oxidation of CdS in H2Ti4O9/CdS to SO42- was accompanied by NO3? reduction without methanol, whereas addition of methanol was useful to promote the NO3? reduction and depress the oxidation of CdS. The catalytic activity of H2Ti4O9/CdS greatly increased with doping Pt particles in the interlayer.",Chemistry,Journal of Chemical Technology &amp; Biotechnology,Crossref;corpus;unpaywall;openalex;scimag,24,0,FALSE,,closed,,"{'org_name': 'To��hoku University', 'org_id': '33e5f0dad330e40a00d9578a0ee4e764'}","{'id': 'j_c9c2ec2997161dc466a97f762a185932', 'zh_title': 'Nitrate removal from water using UVM / S 2 O 4 2 2 advanced reduction process', 'authors': 'N.  Bensalah;R.  Nicola;A.  Abdel-Wahab', 'year': '2014'};{'id': 'j_3fd6e12b67ff42ca151846e872676046', 'zh_title': 'The chemical reduction of nitrate in aqueous solution', 'authors': 'J Fanning', 'journal': 'Coordination Chemistry Reviews', 'year': '2000'};{'id': 'j_99f6c57253bc4b225ad2351bd34a26b4', 'zh_title': 'Advances in nanomaterial based approaches for enhanced fluoride and nitrate removal from contaminated water', 'authors': 'S. P. Suriyaraj;R. Selvakumar', 'journal': 'RSC Adv.', 'year': '2016'};{'id': 'j_d61bc9da3490f1dd64c7f60fe415919e', 'zh_title': 'Role of Nanoparticles in Photocatalysis', 'authors': 'D. Beydoun; R. Amal; G. Low; S. McEvoy', 'journal': 'Journal of Nanoparticle Research', 'year': '1999'};{'id': 'j_5c93dd168b93a2409c1d9c28939762d2', 'zh_title': 'Superior performance of CuInS2 for photocatalytic water treatment: full conversion of highly stable nitrate ions into harmless N2 under visible light', 'authors': 'Mufei Yue;Rong Wang;Biao Ma;Rihong Cong;Wenliang Gao;Tao Yang', 'journal': 'Catalysis Science & Technology', 'year': '2016'};{'id': 'j_48059eae5c697a1ca92f1bc476c61a18', 'zh_title': 'Photocatalytic nitrate reduction in water: Managing the hole scavenger and reaction by-product selectivity', 'authors': 'K. Doudrick;T. Yang;K. Hristovski;P. Westerhoff', 'journal': 'Applied Catalysis B: Environmental', 'year': '2013'};{'id': 'j_963e09978284fa354779af9cec1a17fa', 'zh_title': 'Synthesis and photocatalytic properties of titania pillared hydrogen tetratitanate using titanyl acylate precursor', 'authors': 'Masaru Yanagisawa;Tsugio Sato', 'journal': 'International Journal of Inorganic Materials', 'year': '2001'};{'id': 'j_d0e17fb7e14ea8b6f509a661f7ee4310', 'zh_title': 'Synthesis, structure and photocatalytic reactivity of layered CdS/H2La2Ti3O10 nanocomposites', 'authors': 'Lili Zhang;Weiguang Zhang;Lude Lu;Xujie Yang;Xin Wang', 'journal': 'JOURNAL OF MATERIALS SCIENCE', 'year': '2006'};{'id': 'j_86cffa5fda0d3830cf9ecbcf5f0134fc', 'zh_title': 'Synthesis and photocatalytic properties of CdS-intercalated metal oxides', 'authors': 'Wenfeng Shangguan;Akira Yoshida', 'journal': 'Solar Energy Materials and Solar Cells', 'year': '2001'};{'id': 'j_031a280b0320170b48eb67760be8ed84', 'zh_title': 'Photoreduction of nitrate ion and photoevolution of hydrogen on unsupported TiO2 and TiO2 pillared H4Nb6O17 nanocomposites', 'authors': 'Sittinun Tawkaew;Shu Yin;Tsugio Sato', 'journal': 'International Journal of Inorganic Materials', 'year': '2001'};{'id': 'j_189bba034281e307bd95675eb525f33a', 'zh_title': '2D Titanium/Niobium Metal Oxide�\Based Materials for Photocatalytic Application', 'authors': 'Chao Liu;Qinfang Zhang;Wenhua Hou;Zhigang Zou', 'journal': 'Solar RRL', 'year': '2020'};{'id': 'j_4f73ce2285ccb2bc47dd45af4e4a78a1', 'zh_title': 'Nitrate removal from water using UV-M/S2O4 2? advanced reduction process', 'authors': 'N. Bensalah;R. Nicola;A. Abdel-Wahab', 'journal': 'International Journal of Environmental Science and Technology', 'year': '2013'};{'id': 'j_0a8562f41a41a7effa7bc45e430d5744', 'zh_title': 'Hydrothermal synthesis, characterization and its photoactivity of CdS/Rectorite nanocomposites', 'authors': 'Jiangrong Xiao;Tianyou Peng;Ke Dai;Ling Zan;Zhenghe Peng', 'journal': 'JOURNAL OF SOLID STATE CHEMISTRY', 'year': '2007'};{'id': 'j_f18ba631409d89a331666cbd60413e70', 'zh_title': 'Preparations and photocatalytic hydrogen evolution of N-doped TiO2 from urea and titanium tetrachloride', 'authors': 'J YUAN;M CHEN;J SHI;W SHANGGUAN', 'journal': 'INTERNATIONAL JOURNAL OF HYDROGEN ENERGY', 'year': '2006'};{'id': 'j_0a1594ca71aadbcc7be00de9d6add41f', 'zh_title': 'An overview of commonly used semiconductor nanoparticles in photocatalysis', 'authors': 'Shipra Mital Gupta;Manoj Tripathi', 'journal': 'High Energy Chemistry', 'year': '2011'};{'id': 'j_93b4aa4e461efe3b0e01229b6461d3ba', 'zh_title': 'Effect of particle size of starting material TiO2 on morphology and properties of layered titanates', 'authors': 'Juan Yang;Dan Li;HenZhi Wang;Xin Wang;XuJie Yang;LuDe Lu', 'journal': 'MATERIALS LETTERS', 'year': '2001'};{'id': 'j_c651c935a3f5b91a2ad8edc84bcaba20', 'zh_title': 'Facile one pot in situ synthesis of ZnS�CZnIn2S4 composite for improved photocatalytic applications', 'authors': 'R. Janani;Ambrose A. Melvin;Shubra Singh', 'journal': 'Materials Science in Semiconductor Processing', 'year': '2021'};{'id': 'j_6c35b4a1033417098f16b3870c44e513', 'zh_title': 'Cocatalyst-Free Photocatalysts for Efficient Visible-Light-Induced H2 Production: Porous Assemblies of CdS Quantum Dots and Layered Titanate Nanosheets', 'authors': 'Hyo Na Kim;Tae Woo Kim;In Young Kim;Seong-Ju Hwang', 'journal': 'Advanced Functional Materials', 'year': '2011'};{'id': 'j_e74cf29ffc0f76b06bc2b83d2ec40bcf', 'zh_title': 'Ni\n            2\n            P�\Modified Ta\n            3\n            N\n            5\n            and TaON for Photocatalytic Nitrate Reduction', 'authors': 'Lin Wei;Marquix A. S. Adamson;Javier Vela', 'journal': 'ChemNanoMat', 'year': '2020'};{'id': 'j_9b1cb199e04398918fca4139e9bde85e', 'zh_title': 'Synthesis, characterization of CdS/rectorite nanocomposites and its photocatalytic activity', 'authors': 'Jiangrong Xiao;Tianyou Peng;Dingning Ke;Ling Zan;Zhenghe Peng', 'journal': 'PHYSICS AND CHEMISTRY OF MINERALS', 'year': '2007'};{'id': 'j_d0e357482d818f8130c6abcac00a3ae8', 'zh_title': 'Environmentally Responsible Use of Nanomaterials for the Photocatalytic Reduction of Nitrate in Water', 'authors': 'Kyle  Doudrick', 'year': '2013'};{'id': 'j_cc2a7599ddda01d2b1080c1d8f2b1fce', 'zh_title': 'Hydrogen production from water splitting on CdS-based photocatalysts using solar light', 'authors': 'Xiaoping Chen;Wenfeng Shangguan', 'journal': 'Frontiers in Energy', 'year': '2013'};{'id': 'j_ba5786eacf60de2c9d6346540f4763c4', 'zh_title': 'Synthesis and photochemical properties of Cu2+ doped layered hydrogen titanate', 'authors': 'Masaru Yanagisawa;Satoshi Uchida;Tsugio Sato', 'journal': 'International Journal of Inorganic Materials', 'year': '2000'};{'id': 'j_d80e8306a3b54ccfbd887773a9ab5fc5', 'zh_title': 'ZnCr2S4: Highly effective photocatalyst converting nitrate into N2 without over-reduction under both UV and pure visible light', 'authors': 'Mufei Yue;Rong Wang;Nana Cheng;Rihong Cong;Wenliang Gao;Tao Yang', 'journal': 'SCIENTIFIC REPORTS', 'year': '2016'}",{},"{'person_id': '139e1221a5e67d5ea2c2a082ce149ce3', 'orcid': ' ', 'name': 'Tsugio Sato', 'email': '', 'org_name': 'Tohoku University', 'org_id': 'd5e82ab83d0122cee81904581411952b', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'bba8d3d3ec4b2c234fc83821425ebeda', 'orcid': ' ', 'name': 'Akitsugu Okuwaki', 'email': '', 'org_name': 'Tohoku University', 'org_id': 'd5e82ab83d0122cee81904581411952b', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'e2e0e7f51bb043cded35eee2f17044c9', 'orcid': 'https://orcid.org/0000-0002-8570-6517', 'name': 'Yoshinobu Fujishiro', 'email': '', 'org_name': 'Tohoku University', 'org_id': 'd5e82ab83d0122cee81904581411952b', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '8f2f8a3f53493d859fd75155729456cc', 'orcid': 'https://orcid.org/0000-0002-1982-550X', 'name': 'Toshiaki Yoshioka', 'email': '', 'org_name': 'Tohoku University', 'org_id': 'd5e82ab83d0122cee81904581411952b', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '73517bddb655da5c1ec2a7b513e4678f', 'orcid': ' ', 'name': 'Ken Ichi Sato', 'email': '', 'org_name': 'Tohoku University', 'org_id': 'd5e82ab83d0122cee81904581411952b', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_72897a0061e39d23dd9bddb0730e4ed0,10.1002/(sici)1097-4660(199710)70:2<117::aid-jctb746>3.0.co;2-f,"Heterogeneous Photocatalysis for Purification, Decontamination and Deodorization of Air",1997,Jos�� Peral;Xavier Dom��nech;David F. Ollis,Jos�� Peral,TRUE,1997/10/1,70,2,117,140,0268-2575;1097-4660,"A research review of gas�Csolid heterogeneous photocatalysis is presented, ranging from details of pioneering works, which dealt with basic phenomena like oxygen and water vapor adsorption, to recent applications to pollutant removal in contaminated atmospheres. Special interest is taken in describing the different reactor configurations studied so far in this emerging and promising field. ? 1997 SCI",Chemistry,Journal of Chemical Technology &amp; Biotechnology,Crossref;corpus;unpaywall;openalex;scimag,384,0,FALSE,,closed,,{},{},{},"{'person_id': '3e8252692c2ec0518481b0a25861090a', 'orcid': 'https://orcid.org/0000-0001-9574-6347', 'name': 'Jos�� Peral', 'email': '', 'org_name': 'Autonomous University of Barcelona', 'org_id': '15177a2a2c6372174fed041d55866e1e', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'dad7b6609cae4a54691b3a69d9e7b770', 'orcid': ' ', 'name': 'Xavier Dom��nech', 'email': '', 'org_name': 'Autonomous University of Barcelona', 'org_id': '15177a2a2c6372174fed041d55866e1e', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '3f751ac485bb10f79fa5942e3a86afdf', 'orcid': ' ', 'name': 'David F. Ollis', 'email': '', 'org_name': 'North Carolina State University', 'org_id': '21ec32fd64cfa68088ef7decce416f85', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_1fda1c2e8700321df2720e16d1400a8c,10.1002/(sici)1097-4660(199806)72:2<105::aid-jctb883>3.0.co;2-0,Photodegradation of pentachlorophenol on ZnO,1998,Jorge Villase?or;Patricio Reyes;Gina Pecchi,Jorge Villase?or,TRUE,1998/6/1,72,2,105,110,0268-2575;1097-4660,The photocatalytic degradation of pentachlorophenol on ZnO catalysts is reported. The studies were carried out in a conventional photoreactor at 298 K using 30 ppm of pentachlorophenol. Appropriate catalytic activity and high selectivity to mineralization products were found. A significant increase in the conversion was achieved at higher temperatures. 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Ram', 'journal': 'International Materials Reviews', 'year': '2017'};{'id': 'j_502e78983d05035b516b5ee30b239886', 'zh_title': 'Synthesis and photocatalytic characterization of titania-supported bamboo charcoals by using sol�Cgel method', 'authors': 'Chi-Hsin Wu;Jin-Fang Shr;Chu-Fu Wu;Chien-Te Hsieh', 'journal': 'Journal of Materials Processing Technology', 'year': '2008'};{'id': 'j_234172be496e8d711fd4d3f335085dbc', 'zh_title': 'Characterizing Engineered Nanomaterials: From Environmental, Health and Safety Research to the Development of Shaped Nanosphere Lithography for Metamaterials', 'authors': 'Zuzanna A. Lewicka', 'year': '2012'};{'id': 'j_9b9cac14ced2c6517e30687337fa7b4a', 'zh_title': 'Interactions of nerve agents with model surfaces: Computational approach', 'authors': 'A. Michalkova;J. Leszczynski', 'journal': 'Journal of Vacuum Science and Technology', 'year': '2010'};{'id': 'j_1ace5c54c21abce8b27f834011f75653', 'zh_title': 'ZnO nanoparticles obtained by mechanochemical technique and the optical properties', 'authors': 'A. Moballegh;H.R. Shahverdi;R. Aghababazadeh;A.R. Mirhabibi', 'journal': 'Surface Science', 'year': '2007'};{'id': 'j_ddb6de6211c9880c171591fe8abce06f', 'zh_title': 'Study on Preparation of ZnO/a-Fe2O3/Attapulgite Nanocomposites and Degradation of Methyl Orange', 'authors': 'Ran WANG;Jian PAN;Juan JIA;Hong-yu ZHU;Wei-dong LIANG', 'journal': 'DEStech Transactions on Environment, Energy and Earth Sciences', 'year': '2018'};{'id': 'j_2726c62d6bba1121444003395d46d26c', 'zh_title': 'An overview of the plant-mediated synthesis of zinc oxide nanoparticles and their antimicrobial potential', 'authors': 'Sadia Akbar;Isfahan Tauseef;Fazli Subhan;Nighat Sultana;Ibrar Khan;Umair Ahmed;Kashif Syed Haleem', 'journal': 'Inorganic and Nano-Metal Chemistry', 'year': '2020'};{'id': 'j_1fc19fb3d0000b1f976d8407eb7fc107', 'zh_title': 'Springer Handbook of Nanomaterials || Nanomaterial Toxicity, Hazards, and Safety', 'authors': 'Vajtai, Robert', 'year': '2013'};{'id': 'j_dc55ee4ddf0b59c54f754fc0c03f312c', 'zh_title': 'Sol-gel synthesis, characterization and photocatalytic activity of mixed oxide ZnO-Fe2O3', 'authors': 'Aracely Hern��ndez;Lourdes Maya;Enrique S��nchez-Mora;Eduardo M. S��nchez', 'journal': 'Journal of Sol-Gel Science and Technology', 'year': '2007'};{'id': 'j_7eb861dadb33596fe2b3234ab9032452', 'zh_title': 'The dc thermal plasma synthesis of ZnO nanoparticles for visible-light photocatalyst', 'authors': 'Hsiu-Fen Lin;Shih-Chieh Liao;Sung-Wei Hung', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '2005'};{'id': 'j_91bee63ea589edeba00f93a4c479fae1', 'zh_title': 'Electrochemical Generation of Cubic Shaped Nano Zn2SnO4 Photocatalysts', 'authors': 'Chandrappa K. Govindappa;Venkatesha T. Venkatarangaiah;Sharifah B. Abd Hamid', 'journal': 'Nano-Micro Letters', 'year': '2013'};{'id': 'j_41982bfff3e433c77193f8ce17b4a050', 'zh_title': 'Atrazine degradation by encapsulated Rhodococcus erythropolis NI86/21', 'authors': 'T. Vancov;K. Jury;L. Van Zwieten', 'journal': 'Journal of Applied Microbiology', 'year': '2005'}",{},"{'person_id': '85854fd872874b21a6ef49e4aafa0fec', 'orcid': ' ', 'name': 'Jorge Villase?or', 'email': '', 'org_name': 'University of Talca', 'org_id': '64192f0673f196f234504a5139396394', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '56631d34d1ecc58109c99e5cf2efe0df', 'orcid': ' ', 'name': 'Patricio Reyes', 'email': '', 'org_name': 'University of Concepci��n', 'org_id': '26f51124989bd9470505cc968598d373', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '3bff6e550d3775e79927b978c2b3f873', 'orcid': 'https://orcid.org/0000-0001-8463-6361', 'name': 'Gina Pecchi', 'email': '', 'org_name': 'University of Concepci��n', 'org_id': '26f51124989bd9470505cc968598d373', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_a331f0dc6452a743fbf10633b7910792,10.1002/(sici)1097-4660(199806)72:2<169::aid-jctb882>3.0.co;2-i,"Photocatalytic degradation of diuron [3-(3,4-dichlorophenyl)-1,1-dimethylurea] on the layer of TiO2 particles in the batch mode plate film reactor",1998,Hana Krysov��;Josef Krysa;Kate?ina Macounov��;Jarom��r Jirkovsky,Hana Krysov��,TRUE,1998/6/1,72,2,169,175,0268-2575;1097-4660,"The photocatalytic degradation of diuron in aqueous solution on TiO 2 layer of a batch mode plate reactor irradiated with ultraviolet sun-bed tubes was investigated. Dependence of the reaction rate on the diuron concentration (in the range of 0.8-8.0x10 -5 mol/dm 3 ) and on the light intensity (0.8-2.7x10 -9 einstein/cm 2 .s) but independence on the flow rate (2.5-3.6 dm 3 /min) were found. A reaction scheme was proposed following the main identified primary (3-(3,4-dichlorophenyl)-1-methyl-1-formylurea and 3-(3,4-dichlorophenyl)-1-methyl-urea) and secondary (3-(3,4-dichlorophenyl)-1-formylurea and 3,4-dichloro-phenylurea) products.",Chemistry,Journal of Chemical Technology &amp; Biotechnology,Crossref;corpus;unpaywall;openalex;scimag,26,0,FALSE,,closed,,"{'org_name': '�����񻯌W���g��W', 'org_id': '73060991f2e4b2aa54c8965d81508aac'}","{'id': 'j_f4ac29da3feced57a2957c8849aa2099', 'zh_title': 'The influence of Fe(III) speciation on supported TiO2 efficiency: example of monuron photocatalytic degradation', 'authors': 'H. M��?t����nkov��;J. Krysa;J. Jirkovsky;G. Mailhot;M. Bolte', 'journal': 'Applied Catalysis B-environmental', 'year': '2005'};{'id': 'j_187fe36fcdf9a9c3af594fbf9424f22c', 'zh_title': 'Decontamination and toxicity removal of an industrial effluent containing pesticides via multistage treatment: Coagulation-flocculation-settling and photo-Fenton process', 'authors': 'Oswaldo Gomes J��nior;Maria Gabriela B. Santos;Arlene B.S. Nossol;Maria Clara V.M. Starling;Alam G. Trov��', 'journal': 'Process Safety and Environmental Protection', 'year': '2021'};{'id': 'j_521f3f0950ca79311c865cc7bc45df3c', 'zh_title': 'Photocatalytic degradative oxidation of Diuron in organic and semi-aqueous systems over titanium dioxide catalyst', 'authors': 'Christine Bouquet�CSomrani;Fran?ois Fajula;Annie Finiels;Patrick Graffin;Patrick Geneste;Jean-Louis Olive��', 'journal': 'New Journal of Chemistry', 'year': '2000'};{'id': 'j_301005c0ba9bb703bf408794c87d68d2', 'zh_title': 'Molecular structure effects in photodegradation of phenol and its chlorinated derivatives with phthalocyanines', 'authors': 'P KLUSON;M DROBEK;S KREJCIKOVA;J KRYSA;A KALAJI;T CAJTHAML;J RAKUSAN', 'journal': 'Applied Catalysis B-environmental', 'year': '2008'};{'id': 'j_9b80dbf1a0f04a491483a70b628422c0', 'zh_title': 'Photocatalytic Degradation of Benzene Derivatives on TiO2 Catalyst', 'authors': 'Ch. Bougheloum;A. Messalhi', 'journal': 'Physics Procedia', 'year': '2009'};{'id': 'j_80c45fc80e316eeeca445d6365b1f265', 'zh_title': 'Partial photocatalytic oxidation of cyclopentene over titanium(IV) oxide', 'authors': 'Petr Kluson;Hana Luskova;Libor Cerveny;Jana Klisakova;Tomas Cajthaml', 'journal': 'Journal of Molecular Catalysis A-chemical', 'year': '2005'};{'id': 'j_3232e00639fa68d28eb48453b7ce48fc', 'zh_title': 'Kinetics of photocatalytic degradation of diuron in aqueous colloidal solutions of Q-TiO2 particles', 'authors': 'Kate?ina Macounov��;Hana Krysov��;Ji??? Ludv??k;Jarom??r Jirkovsky', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '2003'};{'id': 'j_02c74c1a44a13b99c712ea54808df8f5', 'zh_title': 'Bibliography of Work on the Heterogeneous Photocatalytic Removal of Hazardous Compounds from Water', 'authors': 'D. M. Blake', 'year': '1999'};{'id': 'j_d4b56d9a5ca0bfe6ff9899e1377a2776', 'zh_title': 'Photocatalytic Degradation of Dibutyl Phthalate: Effect of Catalyst Immobilization', 'authors': 'O. Bajt;J. Zita;P. Novotn��;J. Krysa;J. Jirkovsky', 'journal': 'Journal of Solar Energy Engineering', 'year': '2008'};{'id': 'j_d2df55614199e3d648f30651dc2af411', 'zh_title': 'Photocatalytic Reaction Engineering || Novel Photocatalytic Reactors for Water and Air Treatment', 'authors': 'de Lasa, Hugo; Serrano, Benito; Salaices, Miguel ', 'year': '2005'};{'id': 'j_cdcfa52aa209fb81e7720b4bc976da7a', 'zh_title': 'Degradation of linuron in aqueous solution by the photo-Fenton reaction', 'authors': 'Hideyuki Katsumata;Satoshi Kaneco;Tohru Suzuki;Kiyohisa Ohta;Yoshihiro Yobiko', 'journal': 'Chemical Engineering Journal', 'year': '2005'};{'id': 'j_401bd9eff4eb19000286585ebf4418bc', 'zh_title': 'Inactivation of microorganisms in a flow-through photoreactor with an immobilized TiO2 layer', 'authors': 'Lenka Belh��?ov��;Josef Krysa;Josef Geryk;Jarom��r Jirkovsky', 'journal': 'Journal of Chemical Technology & Biotechnology', 'year': '1999'};{'id': 'j_502375e04b1f24b8414d4b9064b9de61', 'zh_title': 'Acople de procesos fotocatal��ticos y biol��gicos para el tratamiento de aguas residuales con residuos de plaguicidas', 'authors': 'Dorance Becerra Moreno', 'year': '2014'};{'id': 'j_0601d986721460fae6b29d1c239ef547', 'zh_title': 'Heterogeneous photocatalytic degradation of diuron on zinc oxide: Influence of surface-dependent adsorption on kinetics, degradation pathway, and toxicity of intermediates', 'authors': 'Sutaporn Meephon;Thanyada Rungrotmongkol;Somchintana Puttamat;Supareak Praserthdam;Varong Pavarajarn', 'journal': 'Journal of Environmental Sciences', 'year': '2019'};{'id': 'j_0403f51ec99815f77e2cd301cfcd81e0', 'zh_title': 'Photocatalytic Degradation of Organic Pollutants: A Review', 'authors': 'Rakshit Ameta;Surbhi Benjamin;Aarti Ameta;Suresh C. Ameta', 'journal': 'Materials Science Forum', 'year': '2012'};{'id': 'j_30b3797ed7a9d91bb7556ffc450d15be', 'zh_title': 'Photocatalytic Oxidation of Cyclohexene on Titanium(IV) Oxide', 'authors': 'Jana Klis��kov��;Petr Kluso��;Libor ?erveny', 'journal': 'Collection of Czechoslovak Chemical Communications', 'year': '2003'};{'id': 'j_d71e351ef74a419f8e8d0309cd9889a0', 'zh_title': 'Degradation of sulfamethoxazole in water by solar photo-Fenton. Chemical and toxicological evaluation', 'authors': 'Alam G. Trov��;Raquel F.P. Nogueira;Ana Ag��era;Amadeo R. Fernandez-Alba;Carla Sirtori;Sixto Malato', 'journal': 'Water research', 'year': '2009'};{'id': 'j_4efc92061cf2bd1bdcf8bc4bbb1031d0', 'zh_title': 'Visible light-assisted photocatalytic mineralization of diuron pesticide using novel type II CuS/Bi2W2O9 heterojunctions with a hierarchical microspherical structure', 'authors': 'Yagna Prakash Bhoi;Chinmaya Behera;Dibyananda Majhi;Sk. Md. Equeenuddin;B. G. Mishra', 'journal': 'New Journal of Chemistry', 'year': '2018'};{'id': 'j_a386e4e996638cec8271165d478c0f19', 'zh_title': 'Inactivation of bacteria by sun light in a solar reactor with Immobilised TiO2', 'authors': 'Josef Krysa;Marianne Kjettrup Jensen;Lenka Belh��?ov��;Josef Geryk', 'journal': 'Toxicological & Environmental Chemistry', 'year': '1999'};{'id': 'j_0c111d63a00fb63dd31c2648f332e3a0', 'zh_title': 'PHOTOCATALYSIS: AN EMERGING TECHNOLOGY', 'authors': 'Indu  Bhati;Paras  Tak;Hemant  Sharma;Rakshit  Ameta', 'year': '2013'};{'id': 'j_a61c69c5533d43f2e013b14d041a834d', 'zh_title': 'Dependence of Catalyst Surface in Photocatalytic Degradation of Phenyl Urea Herbicides', 'authors': 'Sutaporn Meephon;Somchintana Puttamat;Varong Pavarajarn', 'journal': 'Engineering Journal', 'year': '2018'};{'id': 'j_efe7259db3c9ee12b86d369b45972c99', 'zh_title': 'Photocatalytical inactivation of E. coli: effect of (continuous�Cintermittent) light intensity and of (suspended�Cfixed) TiO2 concentration', 'authors': 'A.G. Rinc��n;C. Pulgarin', 'journal': 'Applied Catalysis B-environmental', 'year': '2003'};{'id': 'j_fd93fc66b99b82a377961395ea305157', 'zh_title': 'Photodegradation of metamitron (4-amino-6-phenyl-3-methyl-1,2,4-triazin-5(4H)-one) on TiO2', 'authors': 'K Macounov��;J Urban;H Krysov��;J Krysa;J Jirkovsky;J Ludv??k', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '2001'};{'id': 'j_663fc4ddc759182d75423860ecea0daf', 'zh_title': 'Sunlight/ZnO-mediated photocatalytic degradation of reactive red 22 using thin film flat bed flow photoreactor', 'authors': 'L.Selva Roselin;G.R. Rajarajeswari;Rosilda Selvin;V. Sadasivam;B. Sivasankar;K. Rengaraj', 'journal': 'Solar Energy', 'year': '2002'};{'id': 'j_1fe2100a90f573f4cb0b975d5ef5cd1a', 'zh_title': 'Degradation of linuron by ultrasound combined with photo-Fenton treatment', 'authors': 'Hideyuki Katsumata;Takuya Kobayashi;Satoshi Kaneco;Tohru Suzuki;Kiyohisa Ohta', 'journal': 'Chemical Engineering Journal', 'year': '2011'};{'id': 'j_b6840c2c34c8ec35e70da80559737f0e', 'zh_title': 'Photocatalytic degradation of diuron in aqueous solution by platinized TiO2', 'authors': 'Hideyuki Katsumata;Maki Sada;Yusuke Nakaoka;Satoshi Kaneco;Tohru Suzuki;Kiyohisa Ohta', 'journal': 'Journal of hazardous materials', 'year': '2009'}",{},"{'person_id': '40a84e29934bc0076000de4acbffdafd', 'orcid': 'https://orcid.org/0000-0003-4155-6876', 'name': 'Kate?ina Macounov��', 'email': '', 'org_name': 'J. Heyrovsky Institute of Physical Chemistry', 'org_id': '1da00591cdb0d39a62fc2b5085b4465f', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '2088fac38a224936e0449a8683ef4ef1', 'orcid': ' ', 'name': 'Jarom��r Jirkovsky', 'email': '', 'org_name': 'J. Heyrovsky Institute of Physical Chemistry', 'org_id': '1da00591cdb0d39a62fc2b5085b4465f', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'dfc7e23c90097809f81d75d4a894dfaf', 'orcid': ' ', 'name': 'Hana Krysov��', 'email': '', 'org_name': 'University of Chemistry and Technology', 'org_id': 'dde2c165cd14a14ce151b9da5886a529', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'f2321badb329779550965681c8e98b74', 'orcid': 'https://orcid.org/0000-0003-4915-7036', 'name': 'Josef Krysa', 'email': '', 'org_name': 'University of Chemistry and Technology', 'org_id': 'dde2c165cd14a14ce151b9da5886a529', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_8426c96ea025b68741e4656b0279141d,10.1002/(sici)1097-4660(199808)72:4<289::aid-jctb905>3.0.co;2-#,Review: Treatment and reuse of wastewater from the textile wet�\processing industry: Review of emerging technologies,1998,Philippe C. Vandevivere;Roberto Bianchi;Willy Verstraete,Philippe C. Vandevivere,TRUE,1998/8/1,72,4,289,302,0268-2575;1097-4660,"New ecolabels for textile products and tighter restrictions on waste- water discharges are forcing textile wet processors to reuse process water and chemicals. This challenge has prompted intensive research in new advanced treatment technologies, some of which currently making their way to full-scale installations. These comprise polishing treatments such as -ltration, chemical oxidation and specialized Nocculation techniques and pre-treatment steps includ- ing anaerobic digestion, -xed--lm bioreactors, FentonIs reagent oxidation, elec- trolysis, or foam Notation. Though several of these new technologies are promising in terms of cost and performance, they all su?er limitations which require further research and/or need broader validation. A segment of the research deals with the separate handling of speci-c sub-streams such as dyebath effluents to which membrane -ltration is sometimes applied. The main limitation of this approach is the treatment of the concentrate stream. The spectrum of available technologies may, in the future, be further broadened to include oxidation, specialized bio-sorptive processes, solvent extrac- fungi/H 2 O 2 -driven tion, or photocatalysis. 1998 SCI ( J. Chem. T echnol. Biotechnol. 72, 289E302 (1998)",Engineering,Journal of Chemical Technology &amp; Biotechnology,Crossref;corpus;unpaywall;openalex;scimag,1032,71,FALSE,,closed,,"{'org_name': 'Canadian International Development Agency', 'org_id': '590040c1c637c48df88186ae2834c08f'}",{},"{'id': 'j_0119fb776228dab0702e2e39bcc27137', 'zh_title': 'OZONATION �C AN IMPORTANT TECHNIQUE TO COMPLY WITH NEW GERMAN LAWS FOR TEXTILE WASTEWATER TREATMENT', 'authors': 'Frank G?hr;Frank Hermanutz;Wilhelm Oppermann', 'journal': 'Water Science and Technology', 'year': '1994'};{'id': 'j_1f03ac690d69185cc84bae44372c05b4', 'zh_title': 'Transformation of Azo Dye AO-7 by Wastewater Biofilms', 'authors': 'C. Harmer;P. Bishop', 'journal': 'Water Science and Technology', 'year': '1992'};{'id': 'j_ba6c241011840d5e8948774a3ee148ad', 'zh_title': 'BIOMASS-MEDIATED BINDING AND RECOVERY OF TEXTILE DYES FROM WASTE EFFLUENTS', 'authors': 'J K Polman;C R Breckenridge', 'journal': 'Textile chemist and colorist', 'year': '1996'};{'id': 'j_609bf0dc746dba9f56a6df6a08f72aee', 'zh_title': 'Continuous treatment of textile wastewater by combined coagulation, electrochemical oxidation and activated sludge', 'authors': 'Sheng H. Lin;Chi F. Peng', 'journal': 'Water Research', 'year': '1996'};{'id': 'j_b6705bd7bb9aa94aa53240daf19187f9', 'zh_title': 'Effects of an anaerobic zone in a textile wastewater treatment plant', 'authors': 'G. Bortone; J.S. Cech; R. Bianchi; A. Tilche', 'journal': 'Water Science and Technology', 'year': '1995'};{'id': 'j_97201237866359b5aafcf05c5a6efc7c', 'zh_title': 'COLOR REMOVAL FROM TEXTILE PLANT EFFLUENTS', 'authors': 'O.  Marmagne;C.  Coste', 'journal': 'American dyestuff reporter', 'year': '1996'};{'id': 'j_a27302fd7134326eb79d83aa38977510', 'zh_title': 'Treatment of exhausted reactive dyebath effluent using anaerobic digestion : Laboratory and full-scale trials', 'authors': 'C. M. Carliell;S. J. Barclay;Chris  Buckley', 'journal': 'Water SA', 'year': '1996'};{'id': 'j_28142e384d972a7731a881fe5329fa17', 'zh_title': 'Behaviour of alkylphenol polyethoxylate surfactants in the aquatic environment��I. Occurrence and transformation in sewage treatment', 'authors': 'M AHEL', 'journal': 'Water Research', 'year': '1994'};{'id': 'j_c41f4bfeb93f1cf7672525d557279fc2', 'zh_title': 'Treatment of Textile Wastewater by Foam Flotation', 'authors': 'S. H. Lin;C. C. Lo', 'journal': 'Environmental Technology', 'year': '1996'};{'id': 'j_727b15a2afb365c8abf25c6d29ea4a10', 'zh_title': 'Development of a method for adsorption of dyestuffs on activated sludge', 'authors': 'U PAGGA', 'journal': 'Water Research', 'year': '1994'};{'id': 'j_13849b3ed3c5709bfa77834646cd812f', 'zh_title': 'Treatment of textile waste effluents by ozonation and chemical coagulation', 'authors': 'Sheng H. Lin;Chi M. Lin', 'journal': 'Water Research', 'year': '1993'};{'id': 'j_ff1ee7d827d4eca24915003426aa2770', 'zh_title': 'Potential ecotoxic effects probe (PEEP): A novel index to assess and compare the toxic potential of industrial effluents', 'authors': 'G. Costan;N. Bermingham;C. Blaise;J. F. Ferard', 'journal': 'Environmental Toxicology & Water Quality', 'year': '1993'};{'id': 'j_499a63154a24f2e296fc171a5c2e587c', 'zh_title': 'Cotton yarn and fabric finishing wastewater treatment using an anaerobic expanded bed reactor', 'authors': 'N. 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+j_1f20ffccdd1092393065631b63dbbc8b,10.1002/(sici)1097-4660(1998110)73:3<264::aid-jctb942>3.0.co;2-e,Photocatalytic degradation of trace gaseous acetone and acetaldehyde using TiO2 supported on fiberglass cloth,1998,Chen Shifu;Cheng Xueli;Tao Yaowu;Zhao Mengyue,Chen Shifu,TRUE,1998/11/1,73,3,264,268,0268-2575;1097-4660,"The feasibility of photocatalytic degradation of trace gaseous acetone and acetaldehyde using TiO2 supported on fiberglass cloth was studied. The results show that gaseous acetone and acetaldehyde can be completely photocatalytically degraded into CO2 and H2O, after 35 min illumination with a 375 W medium pressure mercury lamp. The effects of parameters such as the flow of reactant gases and the concentrations of oxygen and water vapor in the feed stream on the photocatalytic degradation were studied. TiO2 supported on fiberglass cloth was not easily detached. 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Herrmann', 'journal': 'Applied Catalysis B-environmental', 'year': '2006'};{'id': 'j_0b4f734549325b4261bc1e407cdbf8ed', 'zh_title': 'In Situ Solid-State Nuclear Magnetic Resonance Studies of Acetone Photocatalytic Oxidation on Titanium Oxide Surfaces', 'authors': 'Weizong Xu;Daniel Raftery', 'journal': 'Journal of Catalysis', 'year': '2001'};{'id': 'j_9a83591af8214ba9fb7d215b875f0102', 'zh_title': 'The effect of different preparation conditions on the photocatalytic activity of TiO2��SiO2/beads', 'authors': 'Chen Shifu;Cao Gengyu', 'journal': 'Surface & Coatings Technology', 'year': '2006'};{'id': 'j_ce109bad35a3f094d7cf152f0054225f', 'zh_title': 'Study on the photocatalytic activity of TiN/TiO2 nanoparticle formed by ball milling', 'authors': 'Shifu Chen;Sujuan Zhang;Wei Zhao;Wei Liu', 'journal': 'Journal of Nanoparticle Research', 'year': '2008'};{'id': 'j_a4ca06ce3fd77f509243b099175a7e29', 'zh_title': 'Kinetic modeling of the photocatalytic degradation of air-borne pollutants', 'authors': 'H. Ibrahim;H. de Lasa', 'journal': 'Aiche Journal', 'year': '2004'};{'id': 'j_80d53067ebc7b13662454a7263065c2a', 'zh_title': 'Photodegradation of imazethapyr herbicide by using slurry and supported TiO2: Efficiency comparison', 'authors': 'M. El Madani;M. Harir;A. Zrineh;M. El Azzouzi', 'journal': 'Arabian Journal of Chemistry', 'year': '2015'};{'id': 'j_7b16010cf99469f6f495ef57beedb8f2', 'zh_title': 'Influence of chemical structure of dyes, of pH and of inorganic salts on their photocatalytic degradation by TiO2 comparison of the efficiency of powder and supported TiO2', 'authors': 'Chantal Guillard;Hinda Lachheb;Ammar Houas;Mohamed Ksibi;Elimame Elaloui;Jean-Marie Herrmann', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '2003'}",{},"{'person_id': 'aae18b8af6274f99169cd053c8686775', 'orcid': ' ', 'name': 'Tao Yaowu', 'email': '', 'org_name': ""Department of Chemical Engineering, Zhengzhou University of Technology, Zhengzhou, 450002, People's Republic of China"", 'org_id': ' ', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '3240e545d13271e7d416d1b5dbf8dc8a', 'orcid': ' ', 'name': 'Chen Shifu', 'email': '', 'org_name': 'Huaibei Normal University', 'org_id': '9067f02e1af1c793d64fc449265ddc06', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'dfc133d49d6af2d931e3271dfde747dd', 'orcid': ' ', 'name': 'Zhao Mengyue', 'email': '', 'org_name': ""Department of Chemical Engineering, Zhengzhou University of Technology, Zhengzhou, 450002, People's Republic of China"", 'org_id': ' ', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '72afdee5f7f394b849e602403e303ac4', 'orcid': ' ', 'name': 'Cheng Xue�\Li', 'email': '', 'org_name': 'Huaibei Normal University', 'org_id': '9067f02e1af1c793d64fc449265ddc06', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_a6a611d795ddf0002b6e6707df8abd5e,10.1002/(sici)1097-4660(1998110)73:3<269::aid-jctb944>3.0.co;2-3,Photocatalytic degradation of salicylic acid by colloidal Fe2O3 particles,1998,Bonamali Pal;Maheshwar Sharon,Bonamali Pal,TRUE,1998/11/1,73,3,269,273,0268-2575;1097-4660,"The photocatalytic decomposition of salicylic acid with visible light in an oxygenated aqueous suspension of colloidal ��-Fe2O3 particles has been studied. About 10�C20 ppm of this organic is degraded within 1 h of irradiation, depending upon the initial salicylic acid concentration. Kinetic parameters have been investigated in terms of a first order rate equation. The rate constant (kap) for this heterogeneous photocatalysis was evaluated as a function of the initial concentration of salicylic acid. Carbon dioxide has been detected over prolonged visible light irradiation. ? 1998 Society of Chemical Industry",Chemistry,Journal of Chemical Technology &amp; Biotechnology,Crossref;corpus;unpaywall;openalex;scimag,18,0,FALSE,,closed,,"{'org_name': 'ӡ�������WԺ����У��', 'org_id': 'dea0c805bd9dbc93b4268af589121b56'}","{'id': 'j_91cb68cf1dec3fcff0675e4860ea2c95', 'zh_title': 'Effect of iron oxides and carboxylic acids on photochemical degradation of bisphenol A', 'authors': 'Fang-bai Li;Jun-jian Chen;Cheng-shuai Liu;Jun Dong;Tong-xu Liu', 'journal': 'Biology and Fertility of Soils', 'year': '2006'};{'id': 'j_b6c772d94b11668682a951e1e53bdc17', 'zh_title': 'Environmental Photo(electro)catalysis: Fundamental Principles and Applied Catalysts', 'authors': 'Huanjun  Zhang;Guohua  Chen;Detlef W. Bahnemann', 'year': '2010'};{'id': 'j_411906f543ee84da921b90759d192069', 'zh_title': 'Preparation of mesoporous magnetic Fe2O3 nanoparticle and its application for organic dyes removal', 'authors': 'Junhong Wang;Xianzhao Shao;Qiang Zhang;Guanghui Tian;Xiaohui Ji;Weiren Bao', 'journal': 'JOURNAL OF MOLECULAR LIQUIDS', 'year': '2017'};{'id': 'j_67e09eb9d673fdfdc3a9d4993aa7847c', 'zh_title': 'Photoelectrocatalytic materials for environmental applications', 'authors': 'Huanjun Zhang;Guohua Chen;Detlef W. Bahnemann', 'journal': 'Journal of Materials Chemistry', 'year': '2009'};{'id': 'j_c654dbd98c471e665f2f39b2ef22d1f5', 'zh_title': 'Monodisperse ��-Fe2O3 Mesoporous Microspheres: One-Step NaCl-Assisted Microwave-Solvothermal Preparation, Size Control and Photocatalytic Property', 'authors': 'Shao-Wen Cao;Ying-Jie Zhu', 'journal': 'NANOSCALE RESEARCH LETTERS', 'year': '2010'};{'id': 'j_56821d0e8af63fa6735fed8ccdfd2388', 'zh_title': 'Synthesis of hollow microspheres constructed with ��-Fe2O3 nanorods and their photocatalytic and magnetic properties', 'authors': 'Xiaoli Xie;Heqing Yang;Fenghua Zhang;Li Li;Junhu Ma;Hua Jiao;Jianying Zhang', 'journal': 'JOURNAL OF ALLOYS AND COMPOUNDS', 'year': '2009'};{'id': 'j_0b5316dc7881620225f6a51c56bb428f', 'zh_title': 'Preparation, characterization and photocatalytic activity of ZnO, Fe2O3 and ZnFe2O4', 'authors': 'M.A. Valenzuela;P. Bosch;J. Jim��nez-Becerrill;O. Quiroz;A.I. P��ez', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '2002'};{'id': 'j_293188e8e9908000ae2b8b82ef7093b5', 'zh_title': 'Effect of Hydrogen Peroxide on the Photocatalytic Decomposition of 4-Nitrophenol over TiO2/Cr-Ti- MCM-41 Catalysts in Visible Light', 'authors': 'Gun Dae Lee;Y.J. Do;Seong Soo Park;Seong Soo Hong', 'journal': 'Materials Science Forum', 'year': '2005'};{'id': 'j_833f96c1f5bb24d6c470180e3dae65de', 'zh_title': 'Heterogeneous oxidation of ethanol over Cu(OH)2/-��-Fe2O3under visible light', 'authors': 'Ekaterina V. Kuznetsova; Evgueni N. Savinov; Alexandre V. Vorontsov; Panagiotis Smirniotis', 'journal': 'Reaction Kinetics and Catalysis Letters', 'year': '2003'};{'id': 'j_5c2df1dc92cd9b8ba0d63704d0c9f2d9', 'zh_title': 'Transition-Metal-Substituted Titania-Loaded MCM-41 as Photocatalysts for the Degradation of Aqueous Organics in Visible Light', 'authors': 'Lev Davydov;Ettireddy P. Reddy;Paul France;Panagiotis G. Smirniotis', 'journal': 'Journal of Catalysis', 'year': '2001'};{'id': 'j_7f3b9ed4dbd0c5cfe3a5f11060b2a8e7', 'zh_title': 'Preparation and characterization of iron oxide thin films by spray pyrolysis using methanolic and ethanolic solutions', 'authors': 'J.D. Desai;H.M. Pathan;Sun-Ki Min;Kwang-Deog Jung;Oh-Shim Joo', 'journal': 'Applied Surface Science', 'year': '2006'};{'id': 'j_fbb457bdb8f67ea89f05b0b26502e10d', 'zh_title': 'Heterogeneous photodegradation of 1-naphthol with natural iron oxide in water: influence of oxalic acid', 'authors': 'L. Mammeri;T. Sehili;S. Belaidi;K. Djebbar', 'journal': 'Desalination and Water Treatment', 'year': '2014'};{'id': 'j_97b269d1fe6a9252a6ee82fd658e4751', 'zh_title': 'Effect of alumina on photocatalytic activity of iron oxides for bisphenol A degradation', 'authors': 'F.B. Li;X.Z. Li;C.S. Liu;T.X. Liu', 'journal': 'Journal of Hazardous Materials', 'year': '2007'};{'id': 'j_4c843f0bb6703a492032ebc9f42ff142', 'zh_title': 'Influence of the Anatase/Rutile Ratio on the TiO2 Photocatalytic Activity for the Photodegradation of Light Hydrocarbons', 'authors': 'Virginia Collins-Mart��nez;Alejandro L��pez Ortiz;Alfredo Aguilar Elgu��zabal', 'journal': 'International Journal of Chemical Reactor Engineering', 'year': '2007'};{'id': 'j_b58e4af5e94ecb889d872892c4c515db', 'zh_title': 'Degradation of Methyl Blue Using Fe-Tourmaline as a  Novel Photocatalyst', 'authors': 'Xuesen Bian;Jianqiu Chen;Rong Ji', 'journal': 'Molecules', 'year': '2013'};{'id': 'j_664500667a4f1476f78048e25b789a72', 'zh_title': 'Fabrication of 3D photocatalytic ��-Fe2O3 structure using direct ink writing method', 'authors': 'Yayun Li;Bo Li;Longtu Li', 'journal': 'MODERN PHYSICS LETTERS B', 'year': '2014'};{'id': 'j_c3adc5ad6febae0a5af243e16f6a8472', 'zh_title': 'Applied Computational Fluid Dynamics || Computational Fluid Dynamics (CFD) Modeling of Photochemical Reactors', 'authors': 'Oh, Hyoung Woo', 'year': '2012'};{'id': 'j_3282e2aa5b873f025767f5841d61515f', 'zh_title': 'Visible light photocatalytic decomposition of 2-naphthol by anodic-biased ��-Fe2O3 film', 'authors': 'Tetsuro Kawahara;Kei-ichi Yamada;Hiroaki Tada', 'journal': 'Journal of Colloid and Interface Science', 'year': '2006'}",{},"{'person_id': 'd79b819d4ce831ce3cda9ed69c9d7bb4', 'orcid': ' ', 'name': 'Maheshwar Sharon', 'email': '', 'org_name': 'Indian Institute of Technology Bombay', 'org_id': 'fe0e228009203c58021c2111845c9daf', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '401f5df6115692f06887633a2cbb5876', 'orcid': 'https://orcid.org/0000-0002-5256-6757', 'name': 'Bonamali Pal', 'email': '', 'org_name': 'Indian Institute of Technology Bombay', 'org_id': 'fe0e228009203c58021c2111845c9daf', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_e89c73e6f34e289adec9b4c886f1b16d,10.1002/(sici)1097-4660(199904)74:4<349::aid-jctb5>3.0.co;2-7,Photodegradation of the textile dye Reactive Black 5 in the presence of semiconducting oxides,1999,I Poulios;I Tsachpinis,I Poulios,TRUE,1999/4/1,74,4,349,357,0268-2575;1097-4660,"The photocatalytic degradation of Reactive Black 5, a textile azo dye, has been investigated in aqueous heterogeneous solutions containing semiconductor oxides as photocatalysts. The disappearance of the organic molecule follows approximately a pseudo-first kinetic order according to the Langmuir-Hinshelwood model. CO 2 , NO 3 - , and SO 4 2- ions have been identified as mineralization products. Various commercial photocatalysts were compared with respect to their decolorization efficiency, as well as the production of CO 2 . The effect of pH and H 2 O 2 on the reaction rate was ascertained.",Chemistry,Journal of Chemical Technology &amp; Biotechnology,Crossref;corpus;unpaywall;openalex;scimag,277,34,FALSE,,closed,,{},{},"{'id': 'j_4861188a80387d8ec04d0273cd71c962', 'zh_title': 'Photooxidative degradation of coloured organics in water using supported catalysts. TiO2 on sand', 'authors': 'R MATTHEWS', 'journal': 'Water Research', 'year': '1991'};{'id': 'j_b7c3491418453fa0dac2694ce1d8c23c', 'zh_title': 'Mechanism of the photo-oxidative degradation of organic pollutants over TiO2 particles', 'authors': 'E. Pelizzetti;C. Minero', 'journal': 'Electrochimica Acta', 'year': '1993'};{'id': 'j_eba0beaa4c44b7db6de6efee757b77a9', 'zh_title': 'Environmental Photochemistry on Semiconductor Surfaces:\u2009 Photosensitized Degradation of a Textile Azo Dye, Acid Orange 7, on TiO2 Particles Using Visible Light', 'authors': 'K. Vinodgopal;Darrel E. Wynkoop;Prashant V. Kamat', 'journal': 'Environmental Science & Technology', 'year': '1996'};{'id': 'j_33a769133ddba83083072fcd36e17889', 'zh_title': 'ChemInform Abstract: Enhancement of the Rate of Photocatalytic Degradation on TiO2 of 2- Chlorophenol, 2,7-Dichlorodibenzodioxin, and Atrazine by Inorganic Oxidizing Species', 'authors': 'E. PELIZZETTI;V. CARLIN;C. MINERO;M. GRAETZEL', 'journal': 'ChemInform', 'year': '2010'};{'id': 'j_363e3ea3280691eed5ce6d1e8dadf13d', 'zh_title': 'Photo-oxidation of phenoxyacetic acid by TiO2-illuminated catalyst', 'authors': 'Mar��a Trillas;Jos�� Peral;Xavier Dom��nech', 'journal': 'Applied Catalysis B: Environmental', 'year': '1993'};{'id': 'j_966926339a9f3a7220938a5d8bd162ba', 'zh_title': 'Oxidation by singlet oxygen of arylazonaphthols exhibiting azo�Chydrazone tautomerism', 'authors': 'John Griffiths;Christopher Hawkins', 'journal': 'Journal of the Chemical Society, Perkin Transactions 2', 'year': '1977'};{'id': 'j_07207978d32fd5ac5991ef61b355eed0', 'zh_title': 'The reactivity of phenol in irradiated aqueous suspensions of TiO2. Mechanistic changes as a function of solution pH', 'authors': ""Kevin E. O'Shea;Claudia Cardona"", 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '1995'};{'id': 'j_62a12c8e2513031db923fb44fe86178b', 'zh_title': 'UV/TiO2 photocatalytic oxidation of commercial dyes in aqueous solutions', 'authors': 'Walter Z. Tang;Huren An', 'journal': 'Chemosphere', 'year': '1995'};{'id': 'j_6408f8bcd5e5b2869f505a7f67ce6125', 'zh_title': 'Photocatalytic production of hydrogen peroxides and organic peroxides in aqueous suspensions of titanium dioxide, zinc oxide, and desert sand', 'authors': 'Claudius. Kormann;Detlef W. Bahnemann;Michael R. Hoffmann', 'journal': 'Environmental Science & Technology', 'year': '1988'};{'id': 'j_425d62fb671520a8878cbe29dd1a48aa', 'zh_title': 'TiO2-assisted photodegradation of dye pollutants II. Adsorption and degradation kinetics of eosin in TiO2 dispersions under visible light irradiation', 'authors': 'Fenglei Zhang;Jincai Zhao;Tao Shen;Hisao Hidaka;Ezio Pelizzetti;Nick Serpone', 'journal': 'Applied Catalysis B-environmental', 'year': '1998'};{'id': 'j_c32a3b056cadcb5273771df5b9069de5', 'zh_title': 'Kinetics of photocatalytic oxidation of phenol on TiO2 surface', 'authors': 'Tsong-Yang Wei;Chi-chao Wan', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '1992'};{'id': 'j_a729b904444592a47c1803ac03667034', 'zh_title': 'Superoxide oxidation: a novel route to aromatic 1,2-dicarboxylic acids', 'authors': 'Chariklia Sotiriou;Wenni Lee;Roger W. Giese', 'journal': 'The Journal of Organic Chemistry', 'year': '1990'};{'id': 'j_e042c53ad6cc6024e3531b972b10d1ea', 'zh_title': 'Environmental Applications of Semiconductor Photocatalysis', 'authors': 'Michael R. Hoffmann;Scot T. Martin;Wonyong Choi;Detlef W. Bahnemann', 'journal': 'Chemical Reviews', 'year': '1995'};{'id': 'j_6bedecf7e3ab7ddc16561f617095440f', 'zh_title': 'Spin trapping and electron spin resonance detection of radical intermediates in the photodecomposition of water at titanium dioxide particulate systems', 'authors': 'Calvin D. Jaeger;Allen J. Bard', 'journal': 'The Journal of Physical Chemistry', 'year': '1979'};{'id': 'j_418a6de3c8d1fcbf530097c9ef2e571f', 'zh_title': 'Role of hydroxyl radicals and trapped holes in photocatalysis. A pulse radiolysis study', 'authors': 'D. Lawless;N. Serpone;D. Meisel', 'journal': 'The Journal of Physical Chemistry', 'year': '1991'};{'id': 'j_b26e5062239ee9d93861994f4bc948a0', 'zh_title': 'Photobleaching of methyl orange in titanium dioxide suspended in aqueous solution', 'authors': 'Chen Lung-Chyuan;Chou Tse-Chuan', 'journal': 'Journal of Molecular Catalysis', 'year': '1993'};{'id': 'j_8f1a5a83d14e7653158d7d16ee6508c4', 'zh_title': 'Photocatalytic oxidation for total organic carbon analysis', 'authors': 'R.W. Matthews;M. Abdullah;G.K.-C. Low', 'journal': 'Analytica Chimica Acta', 'year': '1990'};{'id': 'j_d6e2d140f0b270eca21007e3e493dc4f', 'zh_title': 'Solar detoxification of hazardous waste - an overview of the U.S. Department of Energy program', 'authors': 'Bimleshwar P. Gupta;John V. Anderson', 'journal': 'Solar Energy Materials', 'year': '1991'};{'id': 'j_72897a0061e39d23dd9bddb0730e4ed0', 'zh_title': 'Heterogeneous Photocatalysis for Purification, Decontamination and Deodorization of Air', 'authors': 'Jos�� Peral;Xavier Dom��nech;David F. Ollis', 'journal': 'Journal of Chemical Technology & Biotechnology', 'year': '1997'};{'id': 'j_8d97e8edf94e0e8f04a26da01d99fe08', 'zh_title': 'Kinetics studies in heterogeneous photocatalysis. I. Photocatalytic degradation of chlorinated phenols in aerated aqueous solutions over titania supported on a glass matrix', 'authors': 'Hussain Al-Ekabi;Nick Serpone', 'journal': 'The Journal of Physical Chemistry', 'year': '1988'};{'id': 'j_43d968e4ac0b8b554332c913b905c981', 'zh_title': 'Photocatalytic degradation of p-toluenesulphonic acid in aqueous systems containing powdered and immobilized titanium dioxide', 'authors': 'V. Brezov��;M. Jankovi?ov��;M. Sold��n;A. Bla?kov��;M. Reh��kov��;I. ?urina;M. ?eppan;B. Havl��nov��', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '1994'};{'id': 'j_bb17d2177e4ebd537b773551eabc41dd', 'zh_title': 'Effects of common inorganic anions on rates of photocatalytic oxidation of organic carbon over illuminated titanium dioxide', 'authors': 'Mohammad. Abdullah;Gary K. C. Low;Ralph W. Matthews', 'journal': 'The Journal of Physical Chemistry', 'year': '1990'};{'id': 'j_b67e3bff66422122c95237ee4accf75c', 'zh_title': 'Photocatalytic degradation of selected azo dyes', 'authors': 'Klaus Hustert;Richard G. Zepp', 'journal': 'Chemosphere', 'year': '1992'};{'id': 'j_aac6e1c533298187ff9510d82663a8fc', 'zh_title': 'Photocatalyzed destruction of water contaminants', 'authors': 'David F. Ollis;Ezio Pelizzetti;Nick Serpone', 'journal': 'Environmental Science & Technology', 'year': '1991'};{'id': 'j_e6ff5d20aa545083819fef5382bcdf30', 'zh_title': 'Hydroxyl radical mediated degradation of azo dyes: evidence for benzene generation', 'authors': 'Jack T. Spadaro;Lorne. Isabelle;V. Renganathan', 'journal': 'Environmental Science & Technology', 'year': '1994'};{'id': 'j_15ddcd01831f8581cd65b5ab5ae5b1d0', 'zh_title': 'Stringent requirement for electrophiles in the facile solvolytic hydrolysis of neutral sulfate ester salts', 'authors': 'Mayer B. Goren;Mary E. Kochansky', 'journal': 'The Journal of Organic Chemistry', 'year': '1973'};{'id': 'j_aede2d075e5210d3ee6f367eb58e8ea3', 'zh_title': 'Photocatalytic decolourization of reactive azo dye: A comparison between TiO2 and us photocatalysis', 'authors': 'Lars Baetz Reuterg?dh;Mallika Iangphasuk', 'journal': 'Chemosphere', 'year': '1997'};{'id': 'j_376609a5c514807118fa81e2a29ebba4', 'zh_title': ""Decolorizing dye wastewater with Fenton's reagent"", 'authors': 'W.G. Kuo', 'journal': 'Water Research', 'year': '1992'};{'id': 'j_91188120e22718bfca31e26a4e8250a8', 'zh_title': 'Photodegradation of surfactants II: Degradation of sodium dodecylbenzene sulphonate catalysed by titanium dioxide particles', 'authors': 'Hisao Hidaka;Hayashi Kubota;Michael Gra?tzel;Ezio Pelizzetti;Nick Serpone', 'journal': 'Journal of Photochemistry', 'year': '1986'};{'id': 'j_b4977b43fe91c6264866b1c4a5fb7ce7', 'zh_title': 'Influence of chemisorption on the photodecomposition of salicylic acid and related compounds using suspended titania ceramic membranes', 'authors': 'S. Tunesi;M. Anderson', 'journal': 'The Journal of Physical Chemistry', 'year': '1991'};{'id': 'j_4004cadda3b232288c3ce211a06710d7', 'zh_title': 'Photocatalytic Production of H2O2 and Organic Peroxides on Quantum-Sized Semiconductor Colloids', 'authors': 'Amy J. Hoffman;Elizabeth R. Carraway;Michael R. Hoffmann', 'journal': 'Environmental Science & Technology', 'year': '1994'};{'id': 'j_2b60e3026e4aa4dc69ff8bd74caa9693', 'zh_title': 'Photocatalytic degradation of organic water contaminants: Mechanisms involving hydroxyl radical attack', 'authors': 'C TURCHI', 'journal': 'Journal of Catalysis', 'year': '1990'};{'id': 'j_84be0ffddd35e2801c51d14d7da73d02', 'zh_title': 'Evidence for a surface dual hole-radical mechanism in the titanium dioxide photocatalytic oxidation of 2,4-D.', 'authors': 'Yunfu. Sun;Joseph J. Pignatello', 'journal': 'Environmental Science & Technology', 'year': '1995'};{'id': 'j_f248e9cd934f388e5172b53c5fb98fb7', 'zh_title': 'Decomposition of organophosphorus compounds on photoactivated TiO2 surfaces', 'authors': 'Carole K. Gr?tzel;Marie Jirousek;Michael Gr?tzel', 'journal': 'Journal of Molecular Catalysis', 'year': '1990'}","{'person_id': 'f0897dd8b4160b33ea67ba9b69a4e8c9', 'orcid': ' ', 'name': 'I Tsachpinis', 'email': '', 'org_name': 'Aristotle University of Thessaloniki', 'org_id': ' ', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'ce5bf9a462ce4da63e41fd1c131c2bd8', 'orcid': 'https://orcid.org/0000-0002-1260-3859', 'name': 'Ioannis Poulios', 'email': '', 'org_name': 'Aristotle University of Thessaloniki', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_9f2af62ee08ac681feff950259bd2ff9,10.1002/(sici)1099-0518(199605)34:7<1311::aid-pola18>3.0.co;2-c,Photocatalyzed degradation of polymers in aqueous semiconductor suspensions. I. Photooxidation of solid particles of polyvinylchloride,1996,Hisao Hidaka;Yuji Suzuki;Kayo Nohara;Satoshi Horikoshi;Yoshiharu Hisamatsu;Ezio Pelizzetti;Nick Serpone,Hisao Hidaka,TRUE,1996/5/1,34,7,1311,1316,0887-624X;1099-0518,"The photocatalyzed oxidative decompositions of solid particles of polyvinylchloride (PVC; size about 100 to 200 ��m), of the polyvinylidene chloride copolymer (95% PVC/5% PVLC; size �� 400�C600 ��m), and a PVC film have been examined in suspensions of titania and zinc oxide illuminated by UV light and/or by natural sunlight. Dechlorination and evolution of carbon dioxide were monitored, the latter occurring by the intermediacy of acetic and formic acids. The photodegradation of polymer specimens was enhanced in TiO2/water media by such added oxidants as hydrogen peroxide and potassium persulfate. 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+j_54effe1eec851a76e29fa1b0255c52cf,10.1002/(sici)1099-0518(19961115)34:15<3141::aid-pola5>3.0.co;2-#,Photohydrosilylation reaction of silicone polymers. Platinum�\based photocatalysts: Trimethyl(�©\dicarbonyl) platinum IV complexes,1996,T. Mayer;D. Burget;G. Mignani;J. P. Fouassier,T. Mayer,TRUE,1996/11/15,34,15,3141,3146,0887-624X;1099-0518,"Trimethyl(��-dicarbonyl) platinum(IV) complexes are useful photoinitiators for the hydrosilylation reaction of silicone polymers containing Si��H/Si-vinyl and Si��H/Si-epoxide moieties by homogeneous catalysis. The last step of the photolysis generates colloidal platinum. ? 1996 John Wiley & Sons, Inc.",Chemistry,Journal of Polymer Science Part A: Polymer Chemistry,Crossref;corpus;unpaywall;openalex;scimag,6,17,FALSE,,closed,�߷��ӿ�ѧ,"{'org_name': '����-���ʿ˹�˾', 'org_id': '604ab2e36601dbdd978cd9bbc07587c3'};{'org_name': '�ϰ�����˹��ѧ', 'org_id': '2344a1cd76f907b3cfd48721cafc06fd'}","{'id': 'j_6d564cc8fb30ecc3d6d27e2fcf0cd151', 'zh_title': 'Hydrosilylation on photoactivated catalysts', 'authors': 'D. 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+j_4f306bcca19089a7d247ed8081beab25,10.1002/(sici)1099-0682(200001)2000:1<91::aid-ejic91>3.0.co;2-j,"Photocatalyzed Oxidation of Cyclohexene and Cyclooctene with (nBu4N)4W10O32 and (nBu4N)4W10O32/FeIII[meso-Tetrakis(2,6-dichlorophenyl)porphyrin] in Homogeneous and Heterogeneous Systems",2000,Alessandra Molinari;Rossano Amadelli;Vittorio Carassiti;Andrea Maldotti,Alessandra Molinari,TRUE,2000/1/1,2000,1,91,96,1434-1948;1099-0682,"Photoexcitation of (nBu4N)4W10O32 is a suitable mean of oxidizing cyclohexene and cyclooctene with O2 at room temperature and pressure. This process can be carried out in homogeneous solution as well as using the decatungstate in a dispersed form after its heterogenisation on silica. Cyclohexene and cyclooctene are mainly oxidized to the corresponding hydroperoxides as a consequence of primary photoprocesses which lead to the formation of allylic radicals. The presence of the FeIIImeso-tetrakis(2,6-dichlorophenyl)porphyrin] chloride as cocatalyst strongly affects the photocatalytic properties of (nBu4N)4W10O32, playing a key role in the allylic-hydroperoxide dependent oxidation of the cycloalkenes. In the photooxidation of cyclohexene, the porphyrin increases the photocatalytic efficiency of the decatungstate in terms of total turnover number and catalyses the decomposition of cyclohexenyl hydroperoxide with the selective formation of cyclohex-2-en-1-ol. On the other hand, its presence during the photoinduced oxidation of cyclooctene favours the formation of cyclooctene epoxide by addition of ROO�� and RO�� radicals to the double bond. In the case of cyclooctene, the heterogenisation of the decatungstate on the solid support also affects the chemoselectivity of the photocatalytic process in the absence of the iron porphyrin complex.",Chemistry,European Journal of Inorganic Chemistry,Crossref;corpus;unpaywall;openalex;scimag,37,25,FALSE,,closed,��ѧ���޻��ͺ�,"{'org_name': 'Dipartimento di Chimica, Centro di Studio su Fotoreattivit�� e Catalisi del CNR, Via Luigi Borsari 46, I-44100 Ferrara, Italy Fax: (internat.) + 39-0532/240709', 'org_id': 'd651d32d9b55c087ae9035c7e2aa9081'}","{'id': 'j_8acdd7f6f47bd2701acf17984dd208af', 'zh_title': 'New porphyrin�Cpolyoxometalate hybrid materials: synthesis, characterization and investigation of catalytic activity in acetylation reactions', 'authors': 'Mehdi Araghi;Valiollah Mirkhani;Majid Moghadam;Shahram Tangestaninejad;Iraj Mohammdpoor-Baltork', 'journal': 'Dalton Transactions', 'year': '2012'};{'id': 'j_f36c3e48bd1ac600b65390aaaa40f56d', 'zh_title': 'Photocatalytic degradation of RhB, MG, MB, Roz.B, 3-BL and CI-50 by PW12-APTES@MCF as nanosized mesoporous photocatalyst', 'authors': 'Razieh Fazaeli;Hamid Aliyan;Shahram Tangestaninejad;Somaieh Parishani Foroushani', 'journal': 'Journal of the Iranian Chemical Society', 'year': '2014'};{'id': 'j_6c4515a2464983919cb7d87759aa7998', 'zh_title': 'Selective photooxidation of cyclohexene with molecular oxygen sensitized by palladium phthalocyaninesulfonate', 'authors': 'Xiaojin Xue;Yiming Xu', 'journal': 'Journal of Molecular Catalysis A-chemical', 'year': '2007'};{'id': 'j_999a8ff73561e73d8611c87808ccf865', 'zh_title': 'Greatly enhanced photocatalytic activity and mechanism of H3PW12O40/polymethylmethacrylate/polycaprolactam sandwich nanofibrous membrane prepared by electrospinning', 'authors': 'Wei Li;Tingting Li;Ce Liu;Libao An;Yuqing Li;Weiwei Zhang;Lu Liu;Zhiming Zhang', 'journal': 'Journal of Materials Research', 'year': '2016'};{'id': 'j_ae8cb5ce1ae43656a62e04d91176d7ef', 'zh_title': 'Hybrid Organic�CInorganic Porphyrin�CPolyoxometalate Complexes', 'authors': 'Cl��mence Allain;Sophie Favette;Lise�\Marie Chamoreau;Jacqueline Vaissermann;Laurent Ruhlmann;Bernold Hasenknopf', 'journal': 'European Journal of Inorganic Chemistry', 'year': '2008'};{'id': 'j_e8df7900bd43275b8394c24a87470f51', 'zh_title': 'Titanium dioxide photocatalysis of adamantane', 'authors': 'Laura Cermenati;Daniele Dondi;Maurizio Fagnoni;Angelo Albini', 'journal': 'Tetrahedron', 'year': '2003'};{'id': 'j_1f94b32a531b21c83e50a9bde3f4aaa4', 'zh_title': 'Synthesis and characterization of a new porphyrin�Cpolyoxometalate hybrid material and investigation of its catalytic activity', 'authors': 'Mehdi Araghi;Valiollah Mirkhani;Majid Moghadam;Shahram Tangestaninejad;Iraj Mohammdpoor-Baltork', 'journal': 'Dalton Transactions', 'year': '2012'};{'id': 'j_5033cf048d2cd8fd95cc6ca18b6688dd', 'zh_title': 'A novel photosensitizing decatungstate-based MOF: Synthesis and photocatalytic oxidation of cyclohexane with molecular oxygen', 'authors': 'Dongying Shi;Zheng Ming;Qiuyu Wu;Tianhua Lai;Kaijun Zheng;Cheng He;Junwei Zhao', 'journal': 'INORGANIC CHEMISTRY COMMUNICATIONS', 'year': '2019'};{'id': 'j_8a365219aa477318672e60a56142a03b', 'zh_title': 'Association of Keggin-type anions with cationic meso-substituted porphyrins: synthesis, characterization and oxidative catalytic studies', 'authors': 'Isabel C.M.S. 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+j_8183b299e9da55a31f5e764879836659,10.1002/(sici)1099-0739(199804)12:4<296::aid-aoc686>3.0.co;2-r,"Book review: Homogeneous photocatalysis. M. Chanon (Ed.). John Wiley, Chichester, 1997. xi + 413 pages, ?80. ISBN 0-471-96753-X",1998,Paul D. Lickiss,Paul D. Lickiss,TRUE,1998/4/1,12,4,296,297,0268-2605;1099-0739,,Chemistry,Applied Organometallic Chemistry,Crossref;corpus;unpaywall;openalex;scimag,0,0,FALSE,,closed,��ѧ���޻��ͺ�;��ѧӦ��,{},{},{},"{'person_id': 'b5b428ae2e46a74a6cf2b5efa28e59c6', 'orcid': 'https://orcid.org/0000-0002-8507-9867', 'name': 'Paul D. Lickiss', 'email': '', 'org_name': 'Imperial College London', 'org_id': '09fcc2618d97ea900ef7b85ef4087aba', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_73fdbe6f6569000d980852423332f0ae,10.1002/(sici)1099-0739(199904)13:4<245::aid-aoc838>3.0.co;2-o,Cyclic siloxanes and silsesquioxanes as cores and frameworks for the construction of ferrocenyl dendrimers and polymers,1999,Carmen M. Casado;Isabel Cuadrado;Mois��s Mor��n;Beatriz Alonso;Mario Barranco;Jos�� Losada,Carmen M. Casado,TRUE,1999/4/1,13,4,245,259,0268-2605;1099-0739,"Starting from 1,3,5,7-tetramethylcyclotetrasiloxane as core, novel ferrocenyl silicon-containing dendrimers have been constructed up to the third generation, which contains 16 peripheral ferrocene moieties. As precursors of these ferrocenyl dendritic molecules, Si�� Cl- and Si�� allyl-terminated cyclotetrasiloxane-based dendrimers were also built step by step, by the repetition of hydrosilylation and alkenylation reactions as growing steps. The dendritic structures have been confirmed by 1 H, 13 C and 29 Si NMR, infrared spectroscopy, elemental analysis, mass spectrometry and vapor-pressure osmometry. Solution electrochemical studies showed that all the ferrocenyl redox centers attached to the dendritic surface behave as independent, electronically isolated units, so that the dendrimers exchange all the electrons simultaneously at the same potential. We also describe the application of the first redox-active ferrocenyl polymer containing an octakis(dimethylsiloxy)octasilsesquioxane framework, as a mediator in the electrocatalytic oxidation of ascorbic acid. Copyright # 1999 John Wiley & Sons, Ltd.",Chemistry,Applied Organometallic Chemistry,Crossref;corpus;unpaywall;openalex;scimag,61,32,TRUE,,bronze,��ѧ���޻��ͺ�;��ѧӦ��,"{'org_name': '����������ѧ', 'org_id': 'b2f50c59be151ebe39d2839c69d2ae05'};{'org_name': '���������δ�ѧ', 'org_id': '73394d697e4c39a11860488a528e8d00'};{'org_name': '������������ѧ', 'org_id': '04797ba0a0dd4b3b5ef6e7d514749932'}","{'id': 'j_2fa897c97e28b0c59f18da65c9ef8742', 'zh_title': 'Integrated POSS-dendrimer nanohybrid materials: current status and future perspective', 'authors': 'Zhan Li;Junfei Hu;Lei Yang;Xueqian Zhang;Xianhu Liu;Zhao Wang;Yiwen Li', 'journal': 'Nanoscale', 'year': '2020'};{'id': 'j_5350be2b6d70ddeac89e153cb363564e', 'zh_title': 'Topics in Organometallic Chemistry] Dendrimer Catalysis Volume 20 || Metallodendritic Exo-Receptors for the Redox Recognition of Oxo-Anions and Halides', 'authors': 'Gade, Lutz H.', 'year': '2006'};{'id': 'j_149d61b5356965a6df7978e8a4f9e761', 'zh_title': 'Vinyl-Functionalized Janus Ring Siloxane: Potential Precursors to Hybrid Functional Materials', 'authors': 'Thanawat Chaiprasert;Yujia Liu;Nobuhiro Takeda;Masafumi Unno', 'journal': 'Materials', 'year': '2021'};{'id': 'j_21ae7becea5fda5be5516f03b6c7eaa5', 'zh_title': 'Design of meso-structured titanium oxo based hybrid organic�Cinorganic networks', 'authors': 'Galo J. de A. 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Casado;Francisco Lobete;Jose Losada;Isabel Cuadrado', 'journal': 'Chemistry of Materials', 'year': '1995'}","{'person_id': '0498d93c99ff312d5a90a9b30cb4dec2', 'orcid': 'https://orcid.org/0000-0001-9082-8466', 'name': 'Beatriz Alonso', 'email': '', 'org_name': 'Autonomous University of Madrid', 'org_id': 'f46f143fe813e3f01a72149cf501608e', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '0c505fcff8db34c25348e81f9c7ac902', 'orcid': ' ', 'name': 'J. Losada', 'email': '', 'org_name': 'Technical University of Madrid', 'org_id': '060720874e0773bdb7d357db0db383ce', 'author_num': 6, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '4f71af1e0ec7d881ce6022580aad68af', 'orcid': 'https://orcid.org/0000-0002-6539-6224', 'name': 'Isabel Cuadrado', 'email': '', 'org_name': 'Autonomous University of Madrid', 'org_id': 'f46f143fe813e3f01a72149cf501608e', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'bbf2e4e5199686e580d7a04e691c087c', 'orcid': ' ', 'name': 'Mois��s Mor��n', 'email': '', 'org_name': 'Autonomous University of Madrid', 'org_id': 'f46f143fe813e3f01a72149cf501608e', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'df9f69ec6e9f5533f5ea99875f8af478', 'orcid': 'https://orcid.org/0000-0003-2348-9366', 'name': 'Carmen M. Casado', 'email': '', 'org_name': 'Autonomous University of Madrid', 'org_id': 'f46f143fe813e3f01a72149cf501608e', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '96fcbf379851d674c6d243b77a3899da', 'orcid': ' ', 'name': 'Mario Barranco', 'email': '', 'org_name': 'Autonomous University of Madrid', 'org_id': 'f46f143fe813e3f01a72149cf501608e', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_a2a7b0e501c2fc8c9bef9b705f5d950b,10.1002/(sici)1099-114x(199708)21:10<923::aid-er299>3.0.co;2-b,Photocatalytic reduction of carbon dioxide over ferrocyanide-coated titanium dioxide powder,1997,Bhoopendra Kumar Sharma;Rohit Ameta;Jatinder Kaur;Suresh C. Ameta,Bhoopendra Kumar Sharma,TRUE,1997/8/1,21,10,923,929,0363-907X;1099-114X,"Photocatalytic reduction of carbon dioxide in aqueous media has been carried out over potassium-ferrocyanide-coated titanium dioxide powder. Formic acid and formaldehyde were identified as photoproducts, and were measured spectrophotometrically using Nash reagent. The effect of the variation of different parameters such as potassium ferrocyanide concentration, amount of photocatalyst (potassium-ferrocyanide-coated titanium dioxide powder), light intensity and particle size on the yield of photoproducts was also investigated. A tentative mechanism for this reduction has been proposed. ? 1997 John Wiley & Sons, Ltd.",Chemistry,International Journal of Energy Research,Crossref;corpus;unpaywall;openalex;scimag,18,0,FALSE,,closed,�˿�ѧ�뼼��;��Դ��ȼ��,"{'org_name': 'Mohanlal Sukhadia University', 'org_id': 'bf1ac7138c4b737c4ef5ca953010a7b0'}","{'id': 'j_db7f507b0f3a1bad8312a74a69728e87', 'zh_title': 'Photocatalytic reduction of carbonates and formation of some energy rich systems in the presence of Toluidine Blue', 'authors': 'Sarita Jain;Jitendra Vardia;Ajay Sharma;Suresh C. Ameta', 'journal': 'International Journal of Energy Research', 'year': '2001'};{'id': 'j_a166905efe1cfa001598fc00f0d31043', 'zh_title': 'Comparison of the photocatalytic activity of TiO2powder with different particle size', 'authors': 'W. C. Hao; S. K. Zheng; C. Wang; T. M. Wang', 'journal': 'Journal of Materials Science Letters', 'year': '2002'};{'id': 'j_f697ff4206c41b33065d8bf06588497b', 'zh_title': 'Photocatalytic\n            \n              CO\n              2\n            \n            Reduction', 'authors': 'Maochang  Liu;Guijun  Chen;Boya  Min;Jinwen  Shi;Yubin  Chen;Qibin  Liu', 'year': '2021'};{'id': 'j_0ea4cd741cc436ac3e8936c6ac0eccae', 'zh_title': 'Photocatalytic reduction of CO2 by nano-sized ZnS supported on silica and polyvinyl alcohol', 'authors': 'Jing Chen;Yin-Feng, Liu;Wen-Bin Sang;Jia-Dong Hua;Zhong-Yan Meng', 'journal': 'Journal of Shanghai University (english Edition)', 'year': '2003'};{'id': 'j_ba72b143ab6b74fe08f73d7ae4229993', 'zh_title': 'Photocatalytic Reduction of Carbon Dioxide', 'authors': 'Rakshit Ameta;Shikha Panchal;Noopur Ameta;Suresh C. Ameta', 'journal': 'Materials Science Forum', 'year': '2013'};{'id': 'j_4e74f3ab4ae4da996cca5f96a95641d5', 'zh_title': 'Photodegradation of Aqueous Sodium Carbonate by KNiF3 Nanoparticles', 'authors': 'Qian Nan Li;Qiu Hua Yang;Hai Yun Shen', 'journal': 'Applied Mechanics and Materials', 'year': '2013'};{'id': 'j_7f7616850e30333709a8894001db26b7', 'zh_title': 'Use of malachite green as photocatalyst in reduction of sodium and potassium carbonates', 'authors': 'Sarita Jain;Jitendra Vardia;Rameshwer Ameta;Suresh C. Ameta', 'journal': 'Energy Conversion and Management', 'year': '2004'};{'id': 'j_02c74c1a44a13b99c712ea54808df8f5', 'zh_title': 'Bibliography of Work on the Heterogeneous Photocatalytic Removal of Hazardous Compounds from Water', 'authors': 'D. M. Blake', 'year': '1999'};{'id': 'j_a9a79aefc9b394913a7a050b04cbf200', 'zh_title': 'Photocatalytic purification of vehicle exhaust using CeO2�CBi2O3 loaded on white carbon and tourmaline', 'authors': 'Yanqiu Bi;Rui Li;Fucheng Guo;Chundong Zhu;Jianzhong Pei', 'journal': 'Environmental Science and Pollution Research', 'year': '2021'};{'id': 'j_9bc9eec700bc3f772c990947721037c4', 'zh_title': 'Photocatalytic reduction of CO 2 with H 2 O over graphene oxide-supported oxygen-rich TiO 2 hybrid photocatalyst under visible light irradiation: Process and kinetic studies', 'authors': 'Lling-Lling Tan;Wee-Jun Ong;Siang-Piao Chai;Abdul Rahman Mohamed', 'journal': 'Chemical Engineering Journal', 'year': '2017'};{'id': 'j_eb9baf05cec3898ce421e02172beef19', 'zh_title': 'Photocatalytic reduction of carbonate in aqueous solution by UV/TiO2 process', 'authors': 'Young Ku;Wan-Hui Lee;Wen-Yu Wang', 'journal': 'Journal of Molecular Catalysis A-chemical', 'year': '2004'};{'id': 'j_c7f532dc00343957ba0bce1ce67865f5', 'zh_title': 'Photocatalytic Reduction of CO2 with H2O Over Graphene Oxide�CSupported Oxygen�CRich TiO2 Hybrid Photocatalyst Under Visible Light Irradiation: Proc- ess and Kinetic Studies', 'authors': 'Abdul Rahman Mohamed', 'year': '2016'};{'id': 'j_702182775ff53e8496dceec69acd8538', 'zh_title': 'Molecular charge transfer and quantum efficiency analyses of a photochemical reactor for hydrogen production', 'authors': 'C. Zamfirescu;I. Dincer;G.F. Naterer', 'journal': 'International Journal of Hydrogen Energy', 'year': '2012'};{'id': 'j_4fc9663da52b41ad05c99ab347372f0e', 'zh_title': 'Novel photocatalytic product from m-nitrocinnamic acid and alcohol mediated by TiO2', 'authors': 'Koon Ha Park;Hyun Sang Joo;Sung Won Kim;Myeong Soon Park;Pill Soo Shin;Kun Jun;Kyung Il Ahn', 'journal': 'Tetrahedron Letters', 'year': '1999'};{'id': 'j_3aaa4436e06439a3decd5fa08eab752a', 'zh_title': 'Photocatalytic reduction of some alkali carbonates in the presence of methylene blue', 'authors': 'Sarita Jain;Geeta Dangi;Jitendra Vardia;Suresh C. Ameta', 'journal': 'International Journal of Energy Research', 'year': '1999'};{'id': 'j_76eddf80cd1baddc08fbee8a8480235c', 'zh_title': 'Photocatalytic reduction of CO 2 with H 2 O over graphene oxide-supported oxygen-rich TiO 2 hybrid photocatalyst under visible light irradiation', 'authors': 'Wee-Jun  Ong;Siang-Piao  Chai;Abdul Rahman Mohamed', 'year': '2016'};{'id': 'j_6a9984864cf959d218bfb8f188250eab', 'zh_title': 'Electrochemical biosensor for detection of formaldehyde in rain water', 'authors': 'Seyda Korkut Ozoner;Elif Erhan;Faruk Yilmaz;Pinar Ergenekon;Ismail Anil', 'journal': 'Journal of Chemical Technology & Biotechnology', 'year': '2012'};{'id': 'j_296b98ebebee1f6294f82ea1a35e7616', 'zh_title': 'Production of Liquid Solar Fuels and Their Use in Fuel Cells', 'authors': 'Shunichi Fukuzumi', 'journal': 'Joule', 'year': '2017'}",{},"{'person_id': '44d3daeac8c841cbfae3cd367a526569', 'orcid': ' ', 'name': 'Bhoopendra Kumar Sharma', 'email': '', 'org_name': 'Mohanlal Sukhadia University', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '219e5c80b7fd37deb93862de8483f384', 'orcid': ' ', 'name': 'Jatinder Kaur', 'email': '', 'org_name': 'Mohanlal Sukhadia University', 'org_id': ' ', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '94d3347d207587dbb43b27ecb67df004', 'orcid': ' ', 'name': 'Suresh C. Ameta', 'email': '', 'org_name': 'Mohanlal Sukhadia University', 'org_id': ' ', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '090d1df658878ca181231347401cf2c3', 'orcid': ' ', 'name': 'R. Ameta', 'email': '', 'org_name': 'Mohanlal Sukhadia University', 'org_id': ' ', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_3aaa4436e06439a3decd5fa08eab752a,10.1002/(sici)1099-114x(199901)23:1<71::aid-er464>3.0.co;2-g,Photocatalytic reduction of some alkali carbonates in the presence of methylene blue,1999,Sarita Jain;Geeta Dangi;Jitendra Vardia;Suresh C. Ameta,Sarita Jain,TRUE,1999/1/1,23,1,71,77,0363-907X;1099-114X,"The photoreduction of aqueous sodium and potassium carbonates has been carried out in the presence of methylene blue solution (which is a photocatalyst also). The photocatalytic formation of formic acid and formaldehyde were measured spectrophotometrically using Nash reagent. The effect of variation of various parameters like pH, amount of photocatalyst (methylene blue concentration), concentration of Na2CO3 and K2CO3, light intensity, etc. on the yield of photoproducts was also investigated. A tentative mechanism for this reduction has been proposed. Copyright ? 1999 John Wiley & Sons, Ltd.",Chemistry,International Journal of Energy Research,Crossref;corpus;unpaywall;openalex;scimag,12,14,FALSE,,closed,�˿�ѧ�뼼��;��Դ��ȼ��,"{'org_name': 'Mohanlal Sukhadia University', 'org_id': 'bf1ac7138c4b737c4ef5ca953010a7b0'}","{'id': 'j_d26a246b8d72cb831bee84a14143b969', 'zh_title': 'Photogalvanic effect in aqueous Methylene blue nickel mesh systems: Conversion of light into electricity', 'authors': 'Ilker S. Bayer;Inci Ero?lu;Lemi T��rker', 'journal': 'International Journal of Energy Research', 'year': '2001'};{'id': 'j_222bb5d20a36769c7d8ce5a497531ad1', 'zh_title': 'Simultaneous Photoconjugation of Methylene Blue and cis-Rh(phen)2Cl2+ to DNA via a Synergistic Effect?', 'authors': 'Taj Mohammad;Harry Morrison', 'journal': 'Photochemistry and Photobiology', 'year': '2000'};{'id': 'j_41dd298e47876519dac189ea5c9bdff7', 'zh_title': 'Photo-Induced Reduction Reaction of Methylene Blue in an Ionic Liquid', 'authors': 'Jun-ichi Kadokawa;Hironori Izawa;Tomoya Ohta;Satoshi Wakizono;Kazuya Yamamoto', 'journal': 'Informs Journal on Computing', 'year': '2011'};{'id': 'j_db7f507b0f3a1bad8312a74a69728e87', 'zh_title': 'Photocatalytic reduction of carbonates and formation of some energy rich systems in the presence of Toluidine Blue', 'authors': 'Sarita Jain;Jitendra Vardia;Ajay Sharma;Suresh C. Ameta', 'journal': 'International Journal of Energy Research', 'year': '2001'};{'id': 'j_ff53070040722da46fea40c4e87e1322', 'zh_title': 'Effects of the Structure of TiOsub 2] Nanotube Array on Ti Substrate on Its Photocatalytic Activity', 'authors': 'Yuekun Lai;Lan Sun;Yicong Chen;Huifang Zhuang;Changjian Lin;Joannie W. Chin', 'journal': 'Journal of The Electrochemical Society', 'year': '2006'};{'id': 'j_3819957f7ef6b474b2b107e7bc36e6c4', 'zh_title': 'Solar Photocatalytic Decolorization and Detoxification of Industrial Batik Dye Wastewater Using P(3HB)-TiO2 Nanocomposite Films', 'authors': 'Nanthini Sridewi;Liu-Tzea Tan;Kumar Sudesh', 'journal': 'Clean-soil Air Water', 'year': '2011'};{'id': 'j_9153dd2d3ba2886d761ea9f0d317489c', 'zh_title': 'Solar photocatalytic decolorization of methylene blue in water', 'authors': 'W.S. Kuo;P.H. Ho', 'journal': 'Chemosphere', 'year': '2001'};{'id': 'j_ed8cd37c2d9f9c71108f28c235464993', 'zh_title': 'Photocatalytic and antibacterial properties of a TiO2/nylon-6 electrospun nanocomposite mat containing silver nanoparticles', 'authors': 'Hem Raj Pant;Dipendra Raj Pandeya;Ki Taek Nam;Woo-il Baek;Seong Tshool Hong;Hak Yong Kim', 'journal': 'Journal of hazardous materials', 'year': '2011'};{'id': 'j_4e74f3ab4ae4da996cca5f96a95641d5', 'zh_title': 'Photodegradation of Aqueous Sodium Carbonate by KNiF3 Nanoparticles', 'authors': 'Qian Nan Li;Qiu Hua Yang;Hai Yun Shen', 'journal': 'Applied Mechanics and Materials', 'year': '2013'};{'id': 'j_7f7616850e30333709a8894001db26b7', 'zh_title': 'Use of malachite green as photocatalyst in reduction of sodium and potassium carbonates', 'authors': 'Sarita Jain;Jitendra Vardia;Rameshwer Ameta;Suresh C. Ameta', 'journal': 'Energy Conversion and Management', 'year': '2004'};{'id': 'j_1ef1ee3e5f5fbf286acb84e8dd018b47', 'zh_title': 'Impact of collected sunlight on ZnFe2O4 nanoparticles for photocatalytic application', 'authors': 'N.G. Yadav;L.S. Chaudhary;P.A. Sakhare;T.D. Dongale;P.S. Patil;A.D. Sheikh', 'journal': 'Journal of Colloid and Interface Science', 'year': '2018'};{'id': 'j_c2295b20d943c306b5d7a0f01d244bca', 'zh_title': 'Simultaneous Photoconjugation of Methylene Blue and cis-Rh(phen)2Cl2+ to DNA via a Synergistic Effect ?', 'authors': 'Taj Mohammad;Harry Morrison', 'journal': 'Photochemistry and Photobiology', 'year': '2007'}","{'id': 'j_a33e8a1c65f77d0e1fa70eff79d29b71', 'zh_title': 'Photocatalytic reduction of carbon dioxide with metal-loaded SiC powders', 'authors': 'Soichiro Yamamura;Hiroyuki Kojima;Jun Iyoda;Wasaburo Kawai', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1988'};{'id': 'j_171912365d7c2347b26d34bafd26b436', 'zh_title': 'Formation of ethyl alcohol in the photocatalytic reduction of carbon dioxide by SiC and ZnSe/metal powders', 'authors': 'Soichiro Yamamura;Hiroyuki Kojima;Jun Iyoda;Wasaburo Kawai', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1987'};{'id': 'j_71d7f4dc948ce75b4f377c5f84bc5e59', 'zh_title': 'The colorimetric estimation of formaldehyde by means of the Hantzsch reaction', 'authors': 'T. Nash', 'journal': 'Biochemical Journal', 'year': '1953'};{'id': 'j_b1d5efd78aac21fe70e30ef6378018f6', 'zh_title': 'Effect of Polar Solvents on the Absorption Frequency ofn���� Electronic Transitions', 'authors': 'Harden McConnell', 'journal': 'The Journal of Chemical Physics', 'year': '1952'};{'id': 'j_f9654a5dbd4ad471973dce17601bb164', 'zh_title': 'Photochemical reduction of carbonate to formaldehyde on TiO2 powder', 'authors': 'K. Chandrasekaran;J.K. Thomas', 'journal': 'Chemical Physics Letters', 'year': '1983'};{'id': 'j_1a0f86b8896c376aa85423c585eca7d6', 'zh_title': 'The photocatalysed reduction of aqueous sodium carbonate using platinized titania', 'authors': 'Magdy W. Raphael;Mounir A. Malati', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '1989'};{'id': 'j_a44ff6153a8b2c13863349f3372c2f91', 'zh_title': 'Chemical Storage of Solar Energy and Photochemical Fuel Formation', 'authors': 'G. Stein', 'journal': 'Israel Journal of Chemistry', 'year': '1975'};{'id': 'j_912f165e6c72eaa4ba003afa66c523c6', 'zh_title': 'Solar Energy by Photosynthesis', 'authors': 'Melvin Calvin', 'journal': 'Science', 'year': '1974'};{'id': 'j_a2a7b0e501c2fc8c9bef9b705f5d950b', 'zh_title': 'Photocatalytic reduction of carbon dioxide over ferrocyanide-coated titanium dioxide powder', 'authors': 'Bhoopendra Kumar Sharma;Rohit Ameta;Jatinder Kaur;Suresh C. Ameta', 'journal': 'International Journal of Energy Research', 'year': '1997'};{'id': 'j_371bc2baea414d33aea46c6b70163ac9', 'zh_title': 'Elektronenabsorptionsspektren und HMO-Rechnung von Trichalkogenocarbonationen', 'authors': 'A. M��ller;H. Seidel;W. Rittner', 'journal': 'Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy', 'year': '1967'};{'id': 'j_94618133b2c16ea2c5f6de3c43d4bc9d', 'zh_title': 'Reduktion der Kohlens?ure in w?sseriger L?sung unter Einwirkung von UV-Licht', 'authors': 'Nikola Getoff', 'journal': 'Zeitschrift f��r Naturforschung B', 'year': '1962'};{'id': 'j_31ff0ec9209cca063a7f1b5517755745', 'zh_title': 'Electrochemical reduction of aqueous bicarbonate to formate with high current efficiency near the thermodynamic potential at chemically derivatized electrodes', 'authors': 'Charles J. Stalder;Shuchi Chao;Mark S. Wrighton', 'journal': 'Journal of the American Chemical Society', 'year': '1984'};{'id': 'j_4c8771d36ffa907c6559c970e36b062e', 'zh_title': 'Electrochemical aspects of solar energy conversion', 'authors': 'M. D. Archer', 'journal': 'Journal of Applied Electrochemistry', 'year': '1975'};{'id': 'j_911f495be35d23119469d1217a18d583', 'zh_title': 'Photofixation of carbon dioxide: formation of 9,10-dihydrophenanthrene-9-carboxylic acid from phenanthrene�Camine�Ccarbon dioxide systems', 'authors': 'Shigeo Tazuke;Hideki Ozawa', 'journal': 'Journal of the Chemical Society, Chemical Communications', 'year': '1975'}","{'person_id': 'e46b6715c1346ace649f673ef35cc139', 'orcid': ' ', 'name': 'Jitendra Vardia', 'email': '', 'org_name': 'Mohanlal Sukhadia University', 'org_id': ' ', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '28137341fccd25170c8f1ce58cf24775', 'orcid': ' ', 'name': 'Geeta Dangi', 'email': '', 'org_name': 'Mohanlal Sukhadia University', 'org_id': ' ', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '94d3347d207587dbb43b27ecb67df004', 'orcid': ' ', 'name': 'Suresh C. Ameta', 'email': '', 'org_name': 'Mohanlal Sukhadia University', 'org_id': ' ', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '8ee740f3c360b564fbf775f895b81285', 'orcid': ' ', 'name': 'Sarita Jain', 'email': '', 'org_name': 'Mohanlal Sukhadia University', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_f280fbb9d43458756146f9daf7d08704,10.1002/(sici)1099-1271(199805/06)13:3<125::aid-bio475>3.0.co;2-e,Dissolved oxygen determination by electrocatalysed chemiluminescence with in-line solid phase media,1998,James E. Atwater;Jeffrey DeHart;Richard R. Wheeler,James E. Atwater,TRUE,1998/5/1,13,3,125,130,0884-3996;1099-1271,"Dissolved elemental oxygen is determined in a flowing aqueous stream using glucose oxidase to catalyse the reaction between D-glucose and O2 to produce hydrogen peroxide. The levels of the resulting H2O2 are detected and quantified by luminol chemiluminescence using in-line solid phase media for pH adjustment of the reagent stream and for controlled release of the luminophore. The reaction is initiated by electrochemical catalysis. By the use of excess D-glucose in the reagent flow stream, the intensity of chemiluminescence is rendered proportional only to fluctuations in the dissolved O2 concentration. The methodology provides a means for the detection of aqueous O2 in the range 0-10 mg/L.",Chemistry;Medicine,Journal of Bioluminescence and Chemiluminescence,Crossref;corpus;unpaywall;pubmed;openalex;scimag,5,17,FALSE,PM,closed,,"{'org_name': 'Umpqua Research Company', 'org_id': '5261355c9e56bcea19ca7dbd05a76d4f'}","{'id': 'j_320b491dcbb6bc8645dbf623e6be4a63', 'zh_title': '��Reagentless�� Flow Injection Determination of Ammonia and Urea Using Membrane Separation and Solid Phase Basification', 'authors': 'James R. Akse;John O. Thompson;Richard L. Sauer;James E. Atwater', 'journal': 'Microchemical journal : devoted to the application of microtechniques in all branches of science', 'year': '1998'};{'id': 'j_1d64e574b691688832e9cb3f683a9705', 'zh_title': 'High-Throughput Electrochemical Screening Assay for Free and Immobilized Oxidases: Electrochemiluminescence and Intermittent Pulse Amperometry', 'authors': 'Chlo�� Aymard;Celia Bonaventura;Robert Henkens;Christine Mousty;Laurence Hecquet;Franck Charmantray;Lo?c J. Blum;Bastien Doum��che', 'journal': 'ChemElectroChem', 'year': '2016'};{'id': 'j_c129c2fd61bd0f167bc31ab51a43d8b0', 'zh_title': 'Investigations on the Reduction of Molecular Oxygen on Polyphenol Oxidase-Modified Electrode', 'authors': 'Hui Jiang;Chun-Hua Shi;Yong-Shu Xie;Qing-Liang Liu', 'journal': 'Collection of Czechoslovak Chemical Communications', 'year': '2005'};{'id': 'j_117a5337aa7f6981eee6bb63f0d0cf67', 'zh_title': 'On-line electrocatalyzed luminol chemiluminescence determination of d-glucose and dissolved oxygen in simulated mammalian cell bioreactor perfusion fluid using solid phase reagent modules', 'authors': 'James E. Atwater', 'journal': 'Biotechnology Letters', 'year': '2001'};{'id': 'j_321faac22492ba949afec749290383a4', 'zh_title': 'Paramagnetic bead based enzyme electrochemiluminescence immunoassay for TNT', 'authors': 'Robert Wilson;Charles Clavering;Alistair Hutchinson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2003'}","{'id': 'j_4ff7995383beabe55ac7d34cb477b630', 'zh_title': 'Chemiluminescent Chemical Sensors for Oxygen and Nitrogen Dioxide', 'authors': 'Greg E. Collins;Susan L. Rose-Pehrsson', 'journal': 'Analytical Chemistry', 'year': '1995'};{'id': 'j_9e0d6ec0b8c02008dfd5155416becac5', 'zh_title': 'Modified platinum wire glucose oxidase amperometric electrode', 'authors': 'G. J. Moody;G. S. Sanghera;J. D. R. Thomas', 'journal': 'The Analyst', 'year': '1986'};{'id': 'j_fb39bace5578bfab920178f23a7558df', 'zh_title': 'Luminol chemiluminescence reaction catalyzed by a microbial peroxidase', 'authors': 'Kengo Akimoto;Yoshifumi Shinmen;Motoo Sumida;Sumio Asami;Teruo Amachi;Hajime Yoshizumi;Yukikazu Saeki;Sakayu Shimizu;Hideaki Yamada', 'journal': 'Analytical biochemistry', 'year': '1990'};{'id': 'j_50285bb1218e06c36bb5f831bb928ca3', 'zh_title': 'The Effect of Electrode Material on the Electrogenerated Chemiluminescence of Luminol', 'authors': 'Joseph E. Vitt;Dennis C. Johnson;Royce C. Engstrom', 'journal': 'Journal of The Electrochemical Society', 'year': '1991'};{'id': 'j_998a43ceeb4ec54985c75db8ca87959f', 'zh_title': 'Oxygen probe based on tetrakis(alkylamino)ethylene chemiluminescence', 'authors': 'Thompson M. Freeman;W. Rudolf. Seitz', 'journal': 'Analytical Chemistry', 'year': '1981'};{'id': 'j_c4d18946dc1c342a4dabb5a87b2bd0fd', 'zh_title': 'Enzyme packed bed system for the on-line measurement of glucose, glutamate, and lactate in brain microdialyzate', 'authors': 'Martyn G. Boutelle;Lesley K. Fellows;Colin. Cook', 'journal': 'Analytical Chemistry', 'year': '1992'};{'id': 'j_37a3f3d0afb99f73e87812adec90f916', 'zh_title': 'Dual-Analyte Fiber-Optic Sensor for the Simultaneous and Continuous Measurement of Glucose and Oxygen', 'authors': 'Lin. Li;David R. Walt', 'journal': 'Analytical chemistry', 'year': '1995'};{'id': 'j_a90487645aa1af154abd3fc88affe073', 'zh_title': 'The solubility and isotopic fractionation of gases in dilute aqueous solution. I. Oxygen', 'authors': 'Bruce B. Benson;Daniel Krause;Mark A. Peterson', 'journal': 'Journal of Solution Chemistry', 'year': '1979'};{'id': 'j_885e8b3ff2f582a696c7730b6091c983', 'zh_title': 'Liquid-liquid extractions with microporous hollow fibers', 'authors': ""Nancy A. D'elia;Lise Dahuron;E.L. Cussler"", 'journal': 'Journal of Membrane Science', 'year': '1986'};{'id': 'j_407b54925e29efe3d2e862b4d5d3b4b4', 'zh_title': 'Designing hollow-fiber contactors', 'authors': 'Ming-Chien Yang;E. L. Cussler', 'journal': 'Aiche Journal', 'year': '1986'};{'id': 'j_0fe0a2f90204dfebdf5e762c86c97621', 'zh_title': 'Amperometric assay of glucose and lactic acid by flow injection analysis', 'authors': 'Bo A. Petersson', 'journal': 'Analytica Chimica Acta', 'year': '1988'};{'id': 'j_2e582b806ffa860680729a8276dcaffc', 'zh_title': '��Reagentless�� Flow Analysis Determination of Hydrogen Peroxide by Electrocatalyzed Luminol Chemiluminescence', 'authors': 'James E. Atwater;James R. Akse;Jeffery DeHart;Richard R. Wheeler', 'journal': 'Analytical Letters', 'year': '1997'};{'id': 'j_a0014381cf04f3a074ba474f76716ef5', 'zh_title': 'AN OXYGEN PROBE BASED ON TETRAKIS ALKYL AMINOETHYLENE CHEMILUMINESCENCE1', 'authors': 'Thompson M. Freeman;W. Rudolf Seitz', 'year': '1981'};{'id': 'j_f876e1384154f3474d70b133fc8493bf', 'zh_title': 'Chemiluminescence and Photochemical Reaction Detection in Chromatography', 'authors': 'John W. Birks', 'year': '1989'};{'id': 'j_fcf61ea4ced543dbd381c3ad0fedeac9', 'zh_title': 'Enzymatic Determination of Ethanol Using ��Reagentless�� Electrocatalyzed Luminol Chemiluminescence', 'authors': 'James E. Atwater;James R. Akse;Jeffrey DeHart;Richard R. Wheeler', 'journal': 'Analytical Letters', 'year': '1997'};{'id': 'j_225564caf2e5b77d6d579e892bdf52ef', 'zh_title': 'Chemiluminescent flow injection analysis of glucose in drinks with a bienzyme fiberoptic biosensor', 'authors': 'Lo?c J. Blum', 'journal': 'Enzyme and Microbial Technology', 'year': '1993'};{'id': 'j_09ab19debf80f390fe416e5a32c74969', 'zh_title': 'Electrochemical manipulation of fluorescence and chemiluminescence signals at fiber-optic probes', 'authors': 'David A. VanDyke;Hung Yuan. Cheng', 'journal': 'Analytical Chemistry', 'year': '1989'}","{'person_id': '1f350e2260e6c0779084ac69ba42bba0', 'orcid': ' ', 'name': 'James E. Atwater', 'email': '', 'org_name': 'Umpqua Research Company', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '6dab4b8aeb13017ac339434368f8a600', 'orcid': ' ', 'name': 'Jeffrey DeHart', 'email': '', 'org_name': 'Umpqua Research Company', 'org_id': ' ', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'f3325ffdbe1f978500cdfe4686458d51', 'orcid': ' ', 'name': 'Richard R. Wheeler', 'email': '', 'org_name': 'Umpqua Research Company', 'org_id': ' ', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_5a08cec7216c5196fe8ef4fbc8fa6598,10.1002/(sici)1099-1344(199804)41:4<337::aid-jlcr83>3.0.co;2-z,14C-trinitrotoluene: synthesis and photocatalytic degradation,1998,Alice Klapproth;Sandy Linnemann;Detlef Bahnemann;Ralf Dillert;Gregor Fels,Alice Klapproth,TRUE,1998/4/1,41,4,337,343,0362-4803,"Trinitrotoluene and its natural metabolites display an environmental burden with respect to the contamination of soil, ground- and surface water. Photocatalytic degradation employing the semiconductor TiO2 as catalyst has recently been found to effectively rid aqueous systems from organic pollution. We have investigated this process with respect to the conversion of the aromatic TNT-carbon by employing 14C-TNT as starting material. This way we can prove that TNT not only is degraded by the photocatalytic process but is also mineralized to yield CO2. ? 1998 John Wiley & Sons, Ltd.",Chemistry,Journal of Labelled Compounds and Radiopharmaceuticals,Crossref;corpus;unpaywall;openalex;scimag,6,10,FALSE,,closed,,"{'org_name': 'Universitaet-Gesamthochschule Paderborn, FB 13-Organische Chemie, Warburger Str. 100, D-33098 Paderborn, Germany', 'org_id': '99d5579ea6f9bf14ed375cfff772669c'};{'org_name': 'Institut f��r Solarenergieforschung', 'org_id': '1f435380613adcad0d5e7a5ed0244ae8'}","{'id': 'j_a47d75efc0aafbcae8c345848f66bf82', 'zh_title': 'Selective Photocatalytic Decomposition of Nitrobenzene Using Surface Modified TiO2 Nanoparticles', 'authors': 'Donald Cropek;Patricia A. Kemme;Olga V. Makarova;Lin X. Chen;Tijana Rajh', 'journal': 'The Journal of Physical Chemistry C', 'year': '2008'};{'id': 'j_8ec24022e35189e2dddea34d862b4d8f', 'zh_title': 'Electrochemical Reduction of 2,4,6-Trinitrotoluene', 'authors': 'Dinesh K. 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Blake', 'year': '1999'};{'id': 'j_71272f2adcd8ecc6c5b314ca24e80101', 'zh_title': 'Microbial Degradation of Compounds with Nitro Functions', 'authors': 'Karl-Heinz  Blotevogel;Thomas  Gorontzy', 'year': '2001'}","{'id': 'j_30fc2847f5390353ca799e0993cde3b4', 'zh_title': 'Synthesis of 14C-labelled hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX), 2,4,6-trinitrotoluene (TNT), nitrocellulose (NC) and glycidylazide polymer (GAP) for use in assessing the biodegradation potential of these energetic compounds', 'authors': 'Guy Ampleman;Sonia Thiboutot;J. Lavigne;A. Marois;J. Hawari;A. M. Jones;D. Rho', 'journal': 'Journal of Labelled Compounds and Radiopharmaceuticals', 'year': '1995'};{'id': 'j_786d175a411a67ac5a7bedfaf31a1e17', 'zh_title': 'Photolysis of nitroaromatics in aquatic systems. I. 2,4,6-trinitrotoluene', 'authors': 'W.R. Mabey;D. Tse;A. Baraze;T. Mill', 'journal': 'Chemosphere', 'year': '1983'};{'id': 'j_192f99fd2c81f121199d1216a822fdd1', 'zh_title': 'Toxicity and mutagenicity of 2,4,-6-trinitrotoluene and its microbial metabolites', 'authors': 'W D Won;L H DiSalvo;J Ng', 'journal': 'Applied and Environmental Microbiology', 'year': '1976'};{'id': 'j_e042c53ad6cc6024e3531b972b10d1ea', 'zh_title': 'Environmental Applications of Semiconductor Photocatalysis', 'authors': 'Michael R. Hoffmann;Scot T. Martin;Wonyong Choi;Detlef W. Bahnemann', 'journal': 'Chemical Reviews', 'year': '1995'};{'id': 'j_9fc7e05141ee58d90a6ccce5146df31a', 'zh_title': 'Screening for fungi intensively mineralizing 2,4,6-trinitrotoluene', 'authors': 'K. Scheibner;M. Hofrichter;A. Herre;J. Michels;W. Fritsche', 'journal': 'Applied Microbiology and Biotechnology', 'year': '1997'};{'id': 'j_1af79b2f18b360504a78d32216c15f02', 'zh_title': 'Flash Photolysis of 2,4,6-Trinitrotoluene Solutions', 'authors': 'K. Suryanarayanan;C. Capellos', 'journal': 'International Journal of Chemical Kinetics', 'year': '1974'};{'id': 'j_dfb79709351c27fc0ec5226eaa38a25d', 'zh_title': 'R��stungsaltlasten', 'authors': 'R. Haas;I. Schreiber;G. Stork', 'journal': 'Umweltwissenschaften und Schadstoff-Forschung', 'year': '1990'};{'id': 'j_7b483303b44baf74f8da9d2254270467', 'zh_title': 'Photocatalytic mineralization of 2,4,6-trinitrotoluene in aqueous suspensions of titanium dioxide', 'authors': 'Zhikai Wang;Charles Kutal', 'journal': 'Chemosphere', 'year': '1995'};{'id': 'j_f0e159ad2618f4b03c28c57200eb97c5', 'zh_title': 'Photocatalytic degradation of trinitrotoluene and trinitrobenzene: influence of hydrogen peroxide', 'authors': 'Ralf Dillert;Iris Fornefett;Ulrike Siebers;Detlef Bahnemann', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '1996'};{'id': 'j_86a1c807b128ab968653c1de2f228cb3', 'zh_title': 'Initial hydrogenation and extensive reduction of substituted 2,4-dinitrophenols', 'authors': 'H Lenke;H Knackmuss', 'journal': 'Applied and Environmental Microbiology', 'year': '1996'}","{'person_id': '83ae65044bfd4ccd35d59b775c6acc62', 'orcid': ' ', 'name': 'Gregor Fels', 'email': '', 'org_name': 'University of Paderborn', 'org_id': 'ee3b6d5cfef8992f8115b9f23f91630f', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '039c18ee4c3a22a043d624e68a709566', 'orcid': 'https://orcid.org/0000-0002-6661-0712', 'name': 'Ralf Dillert', 'email': '', 'org_name': 'Institut f��r Solarenergieforschung', 'org_id': '1f435380613adcad0d5e7a5ed0244ae8', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '3c0f02af5e24d5b752dd420a37c8faa3', 'orcid': ' ', 'name': 'Sandy Linnemann', 'email': '', 'org_name': 'University of Paderborn', 'org_id': 'ee3b6d5cfef8992f8115b9f23f91630f', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '543f217586233ed2c12c81be30cf0933', 'orcid': ' ', 'name': 'Alice Klapproth', 'email': '', 'org_name': 'University of Paderborn', 'org_id': 'ee3b6d5cfef8992f8115b9f23f91630f', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '78b2d4b88c3328d3763f2b7912e0edb0', 'orcid': 'https://orcid.org/0000-0001-6064-6653', 'name': 'Detlef W. Bahnemann', 'email': '', 'org_name': 'Institut f��r Solarenergieforschung', 'org_id': '1f435380613adcad0d5e7a5ed0244ae8', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_c21632509153168d550b7650c0790bcc,10.1002/(sici)1099-1395(199804)11:4<277::aid-poc3>3.0.co;2-t,Colloidal CdS-induced photocatalytic reaction of 2-methylindole?mechanistic analysis of oxidation of indoles,1998,Anil Kumar;Sanjay Kumar,Anil Kumar,TRUE,1998/4/1,11,4,277,282,0894-3230;1099-1395,"2-Methylindole (2-MI) is adsorbed on the surface of colloidal CdS particles with an adsorption intensity of 0.6?��?103 dm3 mol?1. A new emission band at 530?nm is produced by forming an exciplex between excited CdS and 2-MI and the red emission due to CdS is simultaneously quenched. The emission maxima of green bands for different indoles increase in the order indole?<?tryptophan?<?2-MI?<?3-MI and are observed at 508, 520, 530 and 540?nm, respectively. The shift in emission maxima is related to the oxidation potential of these substrates. The irradiation of an aerated reaction mixture containing CdS and 2-MI with visible light induces the oxidation of adsorbed 2-MI by photogenerated holes to produce 2-methyl-3-indolinone and 2-acetamidobenzaldehyde. The latter product is formed due to oxidative C��C bond cleavage of the pyrrole ring. The reactivity of trapped holes towards the adsorbed 2-MI is evidenced by a decrease in the lifetime of the red emission of CdS in the presence of 2-MI. In this reaction the possibility of the participation of singlet oxygen is ruled out. A general mechanism of CdS-induced oxidation of indoles is discussed. ? 1998 John Wiley & Sons, Ltd.",Chemistry,Journal of Physical Organic Chemistry,Crossref;corpus;unpaywall;openalex;scimag,7,30,FALSE,,closed,��ѧ������;�л���ѧ,"{'org_name': 'Department of Chemistry, University of Roorkee, Roorkee�\247 667, UP, India', 'org_id': '463a196708604eeb42da17e900aa9eab'}","{'id': 'j_a991b6c6a1ba4a94dc1e3b209289983e', 'zh_title': 'CdS-decorated UiO�C66(NH2) nanocomposites fabricated by a facile photodeposition process: an efficient and stable visible-light-driven photocatalyst for selective oxidation of alcohols', 'authors': 'Lijuan Shen;Shijing Liang;Weiming Wu;Ruowen Liang;Ling Wu', 'journal': 'JOURNAL OF MATERIALS CHEMISTRY A', 'year': '2013'};{'id': 'j_03cb3c046c0de06551687d95059422cd', 'zh_title': 'Effect of detergents on the fluorescence from CdS-Q clusters prepared using variable excess Cd2+ concentrations', 'authors': 'M Hamity;R.H Lema;C.A Suchetti', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '2000'};{'id': 'j_6e55771be7794b8ceb58e9d7af4c1def', 'zh_title': 'Photocatalytic Conversion of Nitrobenzene to Aniline through Sequential Proton-Coupled One-Electron Transfers from a Cadmium Sulfide Quantum Dot', 'authors': 'Stephen C. Jensen;Stephanie Bettis Homan;Emily A. Weiss', 'journal': 'Journal of the American Chemical Society', 'year': '2016'};{'id': 'j_051636ff7cf3ebaebafae1cb602964cf', 'zh_title': 'Photophysical and photocatalytic behaviours of Cd(OH)2-coated Q-CdS in the presence of tryptophan', 'authors': 'Anil Kumar;Devendra P.S Negi', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '2000'};{'id': 'j_a9b306ba82aa0db01be259f70cba7b34', 'zh_title': 'Electronic and photocatalytic properties of purine(s)-capped CdS nanoparticles in the presence of tryptophol', 'authors': 'Anil Kumar;Shipra Mital', 'journal': 'Journal of Molecular Catalysis A-chemical', 'year': '2004'};{'id': 'j_6e1cb8a6138d153282fb03737c66c060', 'zh_title': 'Photodeposition of Pt on Colloidal CdS and CdSe/CdS Semiconductor Nanostructures', 'authors': 'Gordana Dukovic;Maxwell G. Merkle;James H. Nelson;Steven M. Hughes;A. Paul Alivisatos', 'journal': 'Advanced Materials', 'year': '2008'};{'id': 'j_d68551bbef13feeedb0088a9910aed04', 'zh_title': 'Flavin Conjugated Polydopamine Nanoparticles Displaying Light-Driven Monooxygenase Activity', 'authors': 'Leander Crocker;Ljiljana Fruk', 'journal': 'Frontiers in Chemistry', 'year': '2019'}","{'id': 'j_776ec1986e91c165b7b8e45e3699dd00', 'zh_title': 'Photochemistry of colloidal cadmium sulfide. 2. Effects of adsorbed methyl viologen and of colloidal platinum', 'authors': 'A. Henglein', 'journal': 'The Journal of Physical Chemistry', 'year': '1982'};{'id': 'j_065559f8dc6ec0b6d7264e28fc86a648', 'zh_title': 'The reactions of indoles in aqueous solution initiated by one-electron oxidation', 'authors': 'Xinhus Shen;Johan Lind;Trygve E. Eriksen;G��bor Mer��nyi', 'journal': 'Journal of the Chemical Society, Perkin Transactions 2', 'year': '1990'};{'id': 'j_57adda1e9df1f5137f535fb821016fd5', 'zh_title': 'Photoelectrochemistry in particulate systems.  6.  Electron-transfer reactions of small cadmium sulfide colloids in acetonitrile', 'authors': 'Prashant V. Kamat;Nada M. Dimitrijevic;Richard W. Fessenden', 'journal': 'The Journal of Physical Chemistry', 'year': '1987'};{'id': 'j_8248151fa86fc416e6cbca49f8961f97', 'zh_title': 'Photochemistry of colloidal semiconductors. 26. Photoelectron emission from cadmium sulfide particles and related chemical effects', 'authors': 'Markus Haase;Horst Weller;Arnim Henglein', 'journal': 'The Journal of Physical Chemistry', 'year': '1988'};{'id': 'j_83c04e0481509a2b1657dc13225ddd2c', 'zh_title': 'Electronic wave functions in semiconductor clusters: experiment and theory', 'authors': 'Louis Brus', 'journal': 'The Journal of Physical Chemistry', 'year': '1986'};{'id': 'j_b442f3ec8a9e58c0a926e6aa310c5b62', 'zh_title': 'Photo-Degradation and Fluorescence of Colloidal-Cadmium Sulfide in Aqueous Solution', 'authors': 'A. Henglein', 'journal': 'Berichte der Bunsengesellschaft f??r physikalische Chemie', 'year': '1982'};{'id': 'j_eceeb9deecb25b63437a9f396c2a474d', 'zh_title': 'Catalysis of photochemical reactions by colloidal semiconductors', 'authors': 'A. Henglein', 'journal': 'Pure and Applied Chemistry', 'year': '1984'};{'id': 'j_13911146a7a6549f4a48bb7c5c01bad1', 'zh_title': 'Light-Induced Redox Reactions in Nanocrystalline Systems', 'authors': 'Anders Hagfeldt;Michael Graetzel', 'journal': 'Chemical Reviews', 'year': '1995'};{'id': 'j_725a443eb9966a511e26b28e2582f027', 'zh_title': 'One-electron oxidation of indoles and acid-base properties of the indolyl radicals', 'authors': 'Xinhua. Shen;Johan. Lind;Gabor. Merenyi', 'journal': 'The Journal of Physical Chemistry', 'year': '1987'};{'id': 'j_b8cf9c4318ddd7a343bae61ddf2f7c25', 'zh_title': 'Colloidal Semiconductor Q-Particles: Chemistry in the Transition Region Between Solid State and Molecules', 'authors': 'Horst Weller', 'journal': 'Angewandte Chemie', 'year': '1993'};{'id': 'j_e042c53ad6cc6024e3531b972b10d1ea', 'zh_title': 'Environmental Applications of Semiconductor Photocatalysis', 'authors': 'Michael R. Hoffmann;Scot T. Martin;Wonyong Choi;Detlef W. Bahnemann', 'journal': 'Chemical Reviews', 'year': '1995'};{'id': 'j_63e9aaf7c253d3e9fce773fad6c3f9f3', 'zh_title': 'Enhancement of luminescence of colloidal CdS in the presence of indoles �� study of CdS-sensitized reactions of indole', 'authors': 'Anil Kumar;Sanjay Kumar', 'journal': 'Journal of Photochemistry and Photobiology A-chemistry', 'year': '1994'};{'id': 'j_629c9f76c64666dcb4cff8da05dc2e57', 'zh_title': 'Primary photochemical events in CdS semiconductor colloids as probed by picosecond laser flash photolysis', 'authors': 'Prashant V. Kamat;Thomas W. Ebbesen;Nada M. Dimitrijevi?;A.J. Nozik', 'journal': 'Chemical Physics Letters', 'year': '1989'};{'id': 'j_34b83b6403631ca16b86e016ac9cd5e3', 'zh_title': 'Photochemistry and radiation chemistry of semiconductor colloids: reaction of the hydrated electron with CdS and non-linear optical effects', 'authors': 'Arnim Henglein;Anil Kumar;Eberhard Janata;Horst Weller', 'journal': 'Chemical Physics Letters', 'year': '1986'};{'id': 'j_b20ebc2d426a41d8a22565eea0d1a88a', 'zh_title': 'Electron transfer from indoles, phenol, and sulfite (SO32-) to chlorine dioxide (ClO2.)', 'authors': 'Gabor Merenyi;Johan Lind;Xinhua Shen', 'journal': 'The Journal of Physical Chemistry', 'year': '1988'};{'id': 'j_72648c22f52ab371755a41e32b8f87ac', 'zh_title': 'Photochemistry of semiconductor colloids. 17. Strong luminescing CdS and CdS-Ag2S particles', 'authors': 'L. Spanhel;H. Weller;A. Fojtik;A. Henglein', 'journal': 'Berichte der Bunsengesellschaft f��r physikalische Chemie', 'year': '1987'};{'id': 'j_993b68aaeb25f157520232057d603bed', 'zh_title': 'Small-particle research: physicochemical properties of extremely small colloidal metal and semiconductor particles', 'authors': 'Arnim Henglein', 'journal': 'Chemical Reviews', 'year': '1989'};{'id': 'j_c7f9d816b18003ca2c4c44f73213288e', 'zh_title': 'The chemistry of indoles', 'authors': 'Richard J. Sundberg', 'year': '1970'};{'id': 'j_896ef0379aef1ee993e8942348b8e900', 'zh_title': 'Weighted density functional theories of drying at solid�Cfluid interfaces: Clarification of recent controversies', 'authors': 'J. R. Henderson;P. Tarazona;F. van Swol;E. Velasco', 'journal': 'Journal of Chemical Physics', 'year': '1992'};{'id': 'j_42b9834b0a33e0c2cda90e5eeea08f64', 'zh_title': 'Chemistry and photophysics of mixed cadmium sulfide/mercury sulfide colloids', 'authors': 'A. Haesselbarth;A. Eychmueller;R. Eichberger;M. Giersig;A. Mews;H. 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+j_dbe3bfe698dab4f7ae2cd181cb400b29,10.1002/(sici)1099-1395(199808/09)11:8/9<546::aid-poc49>3.0.co;2-q,Gated molecular and biomolecular optoelectronic systems via photoisomerizable monolayer electrodes,1998,Itamar Willner;Amihood Doron;Eugenii Katz,Itamar Willner,TRUE,1998/8/1,11,8��9��,546,560,0894-3230;1099-1395,"Molecular and biomolecular optobioelectronic systems that yield the amperometric transduction of recorded optical signals are described. Phenoxynaphthacene quinone is assembled as a monolayer on an Au electrode. Photoisomerization of the monolayer between the redox-active trans-quinone state and the redox-inactive ��ana��-quinone state provides a means to transduce electrochemically optical signals recorded by the monolayer. Coupling of the redox-active trans-quinone monolayer electrode to the secondary reduction of N,N��-dibenzyl-4,4��-bipyridinium, BV2+, provides a means to amplify the transduced current. As the redox potential of the trans-quinone monolayer is pH dependent, the electrocatalyzed monolayer-mediated reduction of BV2+ is controlled by light and the pH. The system represents an ��AND�� gated molecular electronic assembly. A thiol nitrospiropyran monolayer was assembled on an Au electrode. The functionalized electrode acts as photo-triggered ��command interface�� that controls the electrooxidation of dihydroxyphenylacetic acid (DPAA). The electrical properties of the monolayer are controlled by the photoisomer state of the monolayer and the pH of the medium. The monolayer in the nitromerocyanine state exists at pH 9.2 and 7.0 in zwitterionic or positively charged states, respectively. Electrooxidation of the negatively charged substrate, DPPA, is enhanced only in the presence of the protonated nitromerocyanine monolayer electrode. This permits the gated oxidation of the substrate by two complementary triggering signals, light and pH. A mixed monolayer consisting of nitrospiropyran and thiolpyridine units assembled on an Au electrode is applied as a photoisomerizable command surface for controlling the electrical contact of cytochrome c (Cyt c) with the electrode. In the nitrospiropyran�Cpyridine configuration electrical contact of Cyt c and the electrode is attained by the association of Cyt c to pyridine promoter sites. Photoisomerization of the monolayer to the protonated nitromerocyanine state results in the electrostatic repulsion of Cyt c from the monolayer, and the electrical contact of Cyt c with the electrode is blocked. Coupling of the electrically contacted Cyt c and nitrospiropyran�Cpyridine monolayer electrode configuration to the cytochrome oxidase biocatalyzed reduction of oxygen provides a means to amplify the transduced amperometric response. 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+j_7e210550c83e06d3662b3e421ef26236,10.1002/(sici)1099-1409(199704)1:2<125::aid-jpp15>3.0.co;2-x,The Electrochemical Evaluation of the Metal-Carbon Bond Energies (?��GBF) of Alkylated Iron and Cobalt Porphyrins [(por)M-R],1997,AIMIN QIU;DONALD T. SAWYER,AIMIN QIU,TRUE,1997/4/1,1,2,125,134,1088-4246;1099-1409,"<jats:p> The electron-transfer oxidation-reduction chemistry for the alkyl derivatives of iron and cobalt porphyrins ( por ) M <jats:sup> III </jats:sup>? R ] has been characterized on the basis of cyclic voltammetric and controlled-potential-electrolysis measurements. The electrogenerated anions of iron and cobalt porphyrins [( por ) M <jats:sup>?</jats:sup> and ( por <jats:sup>?��</jats:sup>) M <jats:sup>?</jats:sup>] are strong nucleophiles that react with alkyl halides ( RX ) via a nucleophilic displacement process to form metal-carbon bonds [( por ) M - R and ( por <jats:sup>?</jats:sup>��) M - R ]. The difference in the reduction potentials for RX and ( por ) M <jats:sup> II </jats:sup> provides an approximate measure of the ( por ) M - R bond-formation free energy (?��G<jats:sub> BF </jats:sub>). The ?��G<jats:sub> BF </jats:sub> values for iron porphyrins (14�C35 kcal mol<jats:sup>?1</jats:sup>) and for cobalt porphyrins (20-38 kcal mol<jats:sup>?1</jats:sup>) depend on the electron density of the porphyrin ring ( OEP &gt; TPP &gt; Cl <jats:sub>8</jats:sub> TPP &gt; F <jats:sub>20</jats:sub>TPP) and the structure of the alkyl group (1�� &gt; 2�� &gt; 3��). Thus, the apparent metal-carbon bond energy (?��G<jats:sub> BF </jats:sub>) for ( OEP ) Fe <jats:sup>III</jats:sup>- Bu -n is 28 �� 2 kcal mol<jats:sup>?1</jats:sup>, and for [( MeO )<jats:sub>4</jats:sub> TPP ] Co <jats:sup>III</jats:sup>- Bu -n is 36 �� 2 kcal mol <jats:sup>?1</jats:sup>. The ( por <jats:sup>?</jats:sup>��) M <jats:sup>?</jats:sup> dianions react with carbon dioxide in an electrocatalysed reduction cycle to give CO and CO <jats:sub>3</jats:sub><jats:sup>2?</jats:sup> via the apparent transient formation of a metal-carbon bond [( por <jats:sup>?</jats:sup>��) M - C ( O ) O <jats:sup>?</jats:sup>; ?�� G<jats:sub> BF </jats:sub> �� 12 kcal mol <jats:sup>?1</jats:sup> for iron porphyrins]. </jats:p>",Chemistry,Journal of Porphyrins and Phthalocyanines,Crossref;corpus;unpaywall;openalex;scimag,11,33,FALSE,,closed,��ѧ����ѧ��,{},"{'id': 'j_552e424c7210988b40004d393805d782', 'zh_title': 'Non-Nernstian Two-Electron Transfer Photocatalysis at Metalloporphyrin�CTiO2 Interfaces', 'authors': 'Shane Ardo;Darren Achey;Amanda J. Morris;Maria Abrahamsson;Gerald J. 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+j_75c4d4f722b453e5966fb5d74d67996a,10.1002/(sici)1099-1409(199704)1:2<181::aid-jpp22>3.0.co;2-r,Hydroxy-substituted Cobalt Tetraphenylporphyrins as Electrocatalysts for the Reduction of O2,1997,MAKOTO YUASA;BEAT STEIGER;FRED C. ANSON,MAKOTO YUASA,TRUE,1997/4/1,1,2,181,188,1088-4246;1099-1409,"<jats:p> The possible effects of the electron-donating properties of p-hydroxyphenyl groups on the catalytic activity of cobalt porphyrins toward the electro-reduction of O <jats:sub>2</jats:sub> were explored with three cobalt porphyrins having p-hydroxyphenyl substituents in the meso position of the porphyrin ring. The porphyrins were examined as electrocatalysts adsorbed on the surfaces of pyrolytic graphite electrodes in aqueous solution and as homogeneous catalysts dissolved in methanolic solutions. The adsorbed molecules exhibited a higher catalytic activity than those in solution and accomplished the reduction of a portion of the O <jats:sub>2</jats:sub> molecules reaching the electrode to H <jats:sub>2</jats:sub> O . However, the four-electron reduction was indirect, with H <jats:sub>2</jats:sub> O <jats:sub>2</jats:sub> being formed as an intermediate that was subsequently reduced. Although the introduction of the electron-donating p-hydroxyphenyl substituents on the porphyrin ring altered the catalytic activity of the cobalt porphyrins, the effect was not as great as can be obtained by coordinating ruthenium (II) complexes to ��-accepting ligands in the meso position of the porphyrin ring. </jats:p>",Chemistry,Journal of Porphyrins and Phthalocyanines,Crossref;corpus;unpaywall;openalex;scimag,14,15,FALSE,,closed,��ѧ����ѧ��,{},"{'id': 'j_135a858da174f8c535849ee815dde5fe', 'zh_title': 'Inductive and electrostatic effects on cobalt porphyrins for heterogeneous electrocatalytic carbon dioxide reduction', 'authors': 'Minghui Zhu;Deng-Tao Yang;Ruquan Ye;Joy Zeng;Nathan Corbin;Karthish Manthiram', 'journal': 'Catalysis Science & Technology', 'year': '2019'};{'id': 'j_e28f656de58386af542e2f3a70a3123a', 'zh_title': 'Single walled carbon nanotubes functionalized with nickel phthalocyanines: effects of point of substitution and nature of functionalization on the electro-oxidation of 4-chlorophenol', 'authors': 'Samson Khene;Tebello Nyokong', 'journal': 'Journal of Porphyrins and Phthalocyanines', 'year': '2012'};{'id': 'j_35d1ddd6abf731249bfd4d06911d480d', 'zh_title': 'Electrochemical and spectroelectrochemical characterization of meso-tetra-alkyl porphyrins', 'authors': 'Carlos Paliteiro;Ab��lio Sobral', 'journal': 'Electrochimica Acta', 'year': '2005'};{'id': 'j_94066f1fb17fc0ef05966f1887c97225', 'zh_title': 'Optical and electrochemical behavior of new nano-sized complexes based on gold-colloid and Co-porphyrin derivative in the presence of H 2 O 2', 'authors': 'Eugenia Fagadar-Cosma;Iuliana Sebarchievici;Anca Lascu;Ionela Creanga;Anca Palade;Mihaela Birdeanu;Bogdan Taranu;Gheorghe Fagadar-Cosma', 'journal': 'Journal of Alloys and Compounds', 'year': '2016'};{'id': 'j_cb8f5121b58b9f27d4ea03cce55ff77f', 'zh_title': 'Medium Effects Are as Important as Catalyst Design for Selectivity in Electrocatalytic Oxygen Reduction by Iron�CPorphyrin Complexes', 'authors': 'Matthew L. Rigsby;Derek J. Wasylenko;Michael L. Pegis;James M. Mayer', 'journal': 'Journal of the American Chemical Society', 'year': '2015'};{'id': 'j_baad32fca6ee1befdb1c355fc1f53ae8', 'zh_title': 'Molecular Catalysis of Electrochemical Reactions. Mechanistic Aspects', 'authors': 'Jean-Michel Sav��ant', 'journal': 'Chemical Reviews', 'year': '2008'};{'id': 'j_b02c0c5a8ea383dd637b97d85609cb87', 'zh_title': 'An electrochemical and spectroelectrochemical study of pentacoordinated CoTPP on glassy carbon electrode', 'authors': 'H��lo?se H. 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Evans;G. Susan Srivatsa;Donald T. Sawyer;Teddy G. Traylor', 'journal': 'Inorganic Chemistry', 'year': '1985'};{'id': 'j_d070509d71d68bc77e65387b9cd1ae71', 'zh_title': 'Comparison of the catalytic reduction of oxygen by 5,10,15,20-tetrakis((pentaammineruthenio(II)-4-pyridyl)porphyrinato]cobalt(II) in solution and on graphite electrode surfaces', 'authors': 'Chunnian Shi;Fred C. Anson', 'journal': 'Inorganic Chemistry', 'year': '1995'};{'id': 'j_52c2a236353fd2185e9cc60c96fa5168', 'zh_title': 'A survey of Hammett substituent constants and resonance and field parameters', 'authors': 'Corwin. Hansch;A. Leo;R. W. Taft', 'journal': 'Chemical Reviews', 'year': '1991'};{'id': 'j_dd445361a8d9a3b142f43c65c8b2b0a3', 'zh_title': 'Multiple intramolecular electron transfer in the catalysis of the reduction of dioxygen by cobalt meso-tetrakis(4-pyridyl)porphyrin to which four Ru(NH3)5 groups are coordinated', 'authors': 'Chunnian Shi;Fred C. Anson', 'journal': 'Journal of the American Chemical Society', 'year': '1991'};{'id': 'j_ade1843ffb1e2b7b5693787753173b34', 'zh_title': 'The facile aerial oxidation of a porphyrin', 'authors': 'Lionel R. Milgrom', 'journal': 'Tetrahedron', 'year': '1983'};{'id': 'j_85185ee72bb3f3967b7c04d2db67ef79', 'zh_title': 'Electrocatalysis of the reduction of dioxygen by adsorbed cobalt 5,10,15,20-tetraarylporphyrins to which one, two, or three pentaammineruthenium(2+) centers are coordinated', 'authors': 'Beat Steiger;Chunnian Shi;Fred C. Anson', 'journal': 'Inorganic Chemistry', 'year': '1993'};{'id': 'j_48ecf1107007cf7f5f87d77668fdb1f6', 'zh_title': 'On the preparation of metalloporphyrins', 'authors': 'Alan D. Adler;Frederick R. Longo;Frank Kampas;Jean Kim', 'journal': 'Journal of Inorganic and Nuclear Chemistry', 'year': '1970'};{'id': 'j_c86c7d1059c360fb6d9ba96fd2f61e02', 'zh_title': 'Evidence of the Importance of Back-Bonding in Determining the Behavior of Ruthenated Cyanophenyl Cobalt Porphyrins as Electrocatalysts for the Reduction of Dioxygen', 'authors': 'Beat Steiger;Fred C. Anson', 'journal': 'Inorganic Chemistry', 'year': '1995'};{'id': 'j_b29040fa62d315af6a7e8a8339e65069', 'zh_title': 'New Electrocatalysts for the Four-Electron Reduction of Dioxygen Based on (5,10,15-Tris(pentaammineruthenium(II)-4-cyanophenyl)-20- (1-methylpyridinium-4-yl)porphyrinato)cobalt(II) Immobilized on Graphite Electrodes', 'authors': 'Beat Steiger;Fred C. Anson', 'journal': 'Inorganic Chemistry', 'year': '1994'};{'id': 'j_51bdcd231dc0d7d628abdcee8148bcdd', 'zh_title': 'Electrochemical polymerization of amino-, pyrrole-, and hydroxy-substituted tetraphenylporphyrins', 'authors': 'A. Bettelheim;B. A. White;S. A. Raybuck;Royce W. Murray', 'journal': 'Inorganic Chemistry', 'year': '1987'};{'id': 'j_c621ff045a584e553e54a6a893dad460', 'zh_title': 'Field and resonance components of substituent effects', 'authors': 'C. Gardner Swain;Elmer C. Lupton', 'journal': 'Journal of the American Chemical Society', 'year': '1968'};{'id': 'j_43618ad60eac7fdacc9b9016cb122e76', 'zh_title': 'Electrocatalysis of the reduction of molecular oxygen to water by tetraruthenated cobalt meso-tetrakis(4-pyridyl)porphyrin adsorbed on graphite electrodes', 'authors': 'Chunnian Shi;Fred C. Anson', 'journal': 'Inorganic Chemistry', 'year': '1992'};{'id': 'j_157febe703dd025302d9aa6f60984956', 'zh_title': 'Catalysis of dioxygen reduction at graphite electrodes by an adsorbed cobalt(ii) porphyrin', 'authors': 'Richard R. Durand;Fred C. Anson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1982'};{'id': 'j_f2d1d52a177fb4bdee4d42fc99a840fa', 'zh_title': 'Relation between the potentials where adsorbed and unadsorbed cobalt(III) tetrakis(N-methylpyridinium-4-yl)porphyrin is reduced and those where it catalyzes the electroreduction of dioxygen', 'authors': 'Ching Long Ni;Fred C. Anson', 'journal': 'Inorganic Chemistry', 'year': '1985'};{'id': 'j_be48b902c18402624cd9f64cfe11aa51', 'zh_title': 'Electrocatalysts for the four-electron reduction of dioxygen based on adsorbed cobalt tetrapyridylporphyrin molecules linked by aquaammine complexes of ruthenium(II)', 'authors': 'Chunnian Shi;Fred C. Anson', 'journal': 'Inorganica Chimica Acta', 'year': '1994'}","{'person_id': 'f7686ab27508aae48dd03f8493581398', 'orcid': ' ', 'name': 'Fred C. Anson', 'email': '', 'org_name': 'California Institute of Technology', 'org_id': '08e55a165195db97d8e0cdadcded1bed', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '88e2ddadfffc2c98d3d7af286bc89775', 'orcid': ' ', 'name': 'Beat Steiger', 'email': '', 'org_name': 'California Institute of Technology', 'org_id': '08e55a165195db97d8e0cdadcded1bed', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'cfb440689d23510289dff6c44b8ee830', 'orcid': ' ', 'name': 'Makoto Yuasa', 'email': '', 'org_name': 'California Institute of Technology', 'org_id': '08e55a165195db97d8e0cdadcded1bed', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_a28e773b40dcdee41242d7dd41fd39bf,10.1002/(sici)1099-1409(199710)1:4<315::aid-jpp35>3.0.co;2-v,Electrochemical CO2 Reduction Catalysed by Cobalt Octacyanophthalocyanine and its Mechanism,1997,TOSHIYUKI ABE;HIROSHI IMAYA;TSUKASA YOSHIDA;SUMIO TOKITA;DERCK SCHLETTWEIN;DIETER W?HRLE;MASAO KANEKO,TOSHIYUKI ABE,TRUE,1997/10/1,1,4,315,321,1088-4246;1099-1409,"<jats:p> Electrochemical CO <jats:sub>2</jats:sub> reduction was studied by using a graphite electrode coated with cobalt octacyanophthalocyanine ( CoPc ( CN )<jats:sub>8</jats:sub>) and dipped in an aqueous phase. The most active and selective CO <jats:sub>2</jats:sub> reduction was achieved at ?1.20 V (vs Ag / AgCl ) with the ratio of the produced CO / H <jats:sub>2</jats:sub> around 10 at pH 9.3. The electrocatalytic CO <jats:sub>2</jats:sub> reduction by CoPc ( CN )<jats:sub>8</jats:sub> could be achieved at a more positive applied potential than non-substituted CoPc ( CoPc ), which can be ascribed to the relatively positive redox potential of CoPc ( CN )<jats:sub>8</jats:sub>. The catalytic mechanism of the CoPc ( CN )<jats:sub>8</jats:sub> in a homogeneous system was investigated by an in situ potential-step chronoamperospectroscopy under argon and under CO <jats:sub>2</jats:sub> as well. In CoPc ( CN )<jats:sub>8</jats:sub> the rate-determining step was an intermediate formation step, while in CoPc it was the second reduction of the complex. </jats:p>",Chemistry,Journal of Porphyrins and Phthalocyanines,Crossref;corpus;unpaywall;openalex;scimag,28,13,FALSE,,closed,��ѧ����ѧ��,"{'org_name': '�����W', 'org_id': '663a22906845d07b278b9ea5e8c5a2b4'};{'org_name': '�ijǴ�W', 'org_id': 'f9635b3f4e4652fdcc118600ae2d8103'}","{'id': 'j_ad9b0d92c0498477f9ad2718d6d8c2b6', 'zh_title': 'Electrocatalytic Transformation of Carbon Dioxide into Low Carbon Compounds on Conducting Polymers Derived from Multimetallic Porphyrins', 'authors': 'Paulina Dreyse;Jessica Honores;Diego Quezada;Mauricio Isaacs', 'journal': 'ChemSusChem', 'year': '2015'};{'id': 'j_02bb9197d5e377efd9e6c1f93d2eba85', 'zh_title': 'Highly selective and active CO2 reduction electrocatalysts based on cobalt phthalocyanine/carbon nanotube hybrid structures', 'authors': 'Xing Zhang;Zishan Wu;Xiao Zhang;Liewu Li;Yanyan Li;Haomin Xu;Xiaoxiao Li;Xiaolu Yu;Zisheng Zhang;Yongye Liang;Hailiang Wang', 'journal': 'NATURE COMMUNICATIONS', 'year': '2017'};{'id': 'j_b419112d9711dd409abb046b56ccd1ec', 'zh_title': 'Reduction catalysis by metal complexes confined in a polymer matrix', 'authors': 'Toshiyuki Abe;Masao Kaneko', 'journal': 'Progress in Polymer Science', 'year': '2003'};{'id': 'j_b911af837a11b55a4210a04209497533', 'zh_title': 'Revealing the hidden performance of metal phthalocyanines for CO2 reduction electrocatalysis by hybridization with carbon nanotubes', 'authors': 'Zhan Jiang;Yang Wang;Xiao Zhang;Hongzhi Zheng;Xiaojun Wang;Yongye Liang', 'journal': 'Nano Research', 'year': '2019'};{'id': 'j_84a32998ffde2ec9b442dc7ab6f9e48e', 'zh_title': 'Electrochemical CO2 reduction with earth-abundant metal catalysts', 'authors': 'Laura Rotundo;Roberto Gobetto;Carlo Nervi', 'journal': 'Green and Sustainable Chemistry', 'year': '2021'};{'id': 'j_f0cb8f062ce72170c4a12f19baa2e0e2', 'zh_title': 'Transition metal macrocycles for heterogeneous electrochemical CO2 reduction', 'authors': 'Fang Lv;Na Han;Yuan Qiu;Xijun Liu;Jun Luo;Yanguang Li', 'journal': 'Coordination Chemistry Reviews', 'year': '2020'};{'id': 'j_cc0d0eb10cec20395d9dd4d1274b0676', 'zh_title': 'Heterogeneous molecular catalysts for electrocatalytic CO2 reduction', 'authors': 'Nathan Corbin;Joy Zeng;Kindle Williams;Karthish Manthiram', 'journal': 'Nano Research', 'year': '2019'};{'id': 'j_8641f684c1accc8d2ec563160aa050a9', 'zh_title': 'Electrochemical Reduction of COsub 2] with Transition Metal Phthalocyanine and Porphyrin Complexes Supported on Activated Carbon Fibers', 'authors': 'T. 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Fisher;Xin Wang', 'journal': 'Energy & Environmental Science', 'year': '2020'};{'id': 'j_3447df37b88579e1f798e3a505673c6f', 'zh_title': 'A Highly Efficient Conjoined�\twin Porphyrin�\based Complex for the Electrochemical Reduction of CO to Ethanol', 'authors': 'Gurpreet Kour;Xin Mao;Aijun Du', 'journal': 'ChemNanoMat', 'year': '2021'};{'id': 'j_d793dcb6583d029b59084885ffbbe10f', 'zh_title': 'Immobilizing cobalt phthalocyanine into a porous carbonized wood membrane as a self-supported heterogenous electrode for selective and stable CO2 electroreduction in water', 'authors': 'Haidong Zhang;Shixiong Min;Fang Wang;Zhengguo Zhang', 'journal': 'DALTON TRANSACTIONS', 'year': '2020'};{'id': 'j_37ca066dc9b7ea460b0f878525186667', 'zh_title': 'Cobalt phthalocyanine coordinated to pyridine-functionalized carbon nanotubes with enhanced CO2 electroreduction', 'authors': 'Minghui Zhu;Jiacheng Chen;Rong Guo;Jing Xu;Xiangchen Fang;Yi-Fan Han', 'journal': 'Applied Catalysis B: Environmental', 'year': '2019'};{'id': 'j_bac26707891efeaeed49fc00b4d00fa8', 'zh_title': 'Photoinduced hydrogen production using a multilayered molecular assembly composed of zinc tetraphenylporphine and Nafion? membrane', 'authors': 'Toshiyuki Abe;Hiroshi Imaya;Miho Endo;Masao Kaneko', 'journal': 'Polymers for Advanced Technologies', 'year': '2000'};{'id': 'j_981837dbbeba4342913f311d865af0eb', 'zh_title': 'N4-Macrocyclic Metal Complexes || Electroreduction of CO2 Catalyzed by Metallomacrocyclics', 'authors': 'Zagal, Jos�� H.; Bedioui, Fethi; Dodelet, Jean-Pol ', 'year': '2006'};{'id': 'j_5e1d84c3289895148146e2cdf1507ece', 'zh_title': 'Electrocatalytic proton reduction by phthalocyanine cobalt derivatives incorporated in poly(4-vinylpyridine-co-styrene) film', 'authors': 'Feng Zhao;Jian Zhang;Toshiyuki Abe;Dieter W?hrle;Masao Kaneko', 'journal': 'Journal of Molecular Catalysis A-chemical', 'year': '1999'};{'id': 'j_800b51add4e096f03533556574dcf315', 'zh_title': 'Enhancing Electrochemical Carbon Dioxide Reduction by Polymer-Encapsulated Cobalt Phthalocyanine through Incorporation of Graphite Powder', 'authors': 'Taylor  Soucy;Yingshuo  Liu;Jonah  Eisenberg;Charles  McCrory', 'year': '2021'};{'id': 'j_fdd68458880320e592afde6b08245468', 'zh_title': 'Molecular Complexes in Electrocatalysis for Energy Production and Storage', 'authors': 'Alessandro  Lavacchi;Hamish  Miller;Francesco  Vizza', 'year': '2013'};{'id': 'j_3fc257ba1d1d56491c4daa6e4f64f76b', 'zh_title': 'Electrocatalytic pathways towards sustainable fuel production from water and CO2', 'authors': 'Jane L. 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Synthesis and structure of a reversible carbon dioxide carrier', 'authors': 'Giuseppe Fachinetti;Carlo Floriani;Pier Francesco Zanazzi', 'journal': 'Journal of the American Chemical Society', 'year': '1978'};{'id': 'j_0adc265538c625d60cdaabb7894d9c30', 'zh_title': 'Factors affecting selective electrocatalytic co2 reduction with cobalt phthalocyanine incorporated in a polyvinylpyridine membrane coated on a graphite electrode', 'authors': 'Toshiyuki Abe;Tsukasa Yoshida;Sumio Tokita;Fumio Taguchi;Hiroshi Imaya;Masao Kaneko', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1996'};{'id': 'j_69c1707542e1db25c23cf96e2fdcd3e3', 'zh_title': 'Polymere phthalocyanine und ihre vorstufen, 1. Reaktive oktafunktionelle phthalocyanine aus 1,2,4,5-tetracyanbenzol', 'authors': 'Dieter W?hrle;Gunter Meyer;Bernd Wahl', 'journal': 'Macromolecular Chemistry and Physics', 'year': '1980'};{'id': 'j_9ed84eda33e6b277aba258695d4fe15d', 'zh_title': 'Carbon dioxide fixation: bifunctional complexes containing acidic and basic sites working as reversible carriers', 'authors': 'Sandro Gambarotta;Francesco Arena;Carlo Floriani;Pier Francesco Zanazzi', 'journal': 'Journal of the American Chemical Society', 'year': '1982'};{'id': 'j_d6e2b3f2cdc841fcc6e2dc57e37438a4', 'zh_title': 'Hexadecafluoro- and octacyano phthalocyanines as electrocatalysts for the reduction of dioxygen', 'authors': 'Jiangbo Ouyang;Kiyotaka Shigehara;Akira Yamada;Fred C. Anson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1991'};{'id': 'j_4a2145a6c7ee4774fc467e46120a8341', 'zh_title': 'Electrocatalytic reduction of carbon dioxide in aqueous medium by bis(2,2��: 6��,2��-terpyridine)cobalt(II) complex incorporated into a coated polymer membrane', 'authors': 'Tsukasa Yoshida;Takeaki Iida;Toshihiko Shirasagi;Ru-Jang Lin;Masao Kaneko', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1993'};{'id': 'j_700b6ae398f0881a85f068539ab51df8', 'zh_title': 'A dissociative pathway for equilibration of a hydrido CoL(H)2+ complex with carbon dioxide and carbon monoxide. Ligand binding constants in the macrocyclic 14]-dienecobalt(I) system', 'authors': 'Carol Creutz;Harold A. Schwarz;James F. Wishart;Etsuko Fujita;Norman Sutin', 'journal': 'Journal of the American Chemical Society', 'year': '1989'};{'id': 'j_2727be0a74c00867755159d6bc4b9cc7', 'zh_title': 'Electrochemistry and spectroelectrochemistry of mononuclear and binuclear cobalt phthalocyanines', 'authors': 'W. A. Nevin;M. R. Hempstead;W. Liu;C. C. Leznoff;A. B. P. Lever', 'journal': 'Inorganic Chemistry', 'year': '1987'};{'id': 'j_fe357bdd6cd13d00edcf6c37df9815ad', 'zh_title': 'Selective electroacatalysis for CO2 reduction in the aqueous phase using cobalt phthalocyanine/poly-4-vinylpyridine modified electrodes', 'authors': 'Tsukasa Yoshida;Kazuhiro Kamato;Masaaki Tsukamoto;Takeaki Iida;Derck Schlettwein;Dieter W?hrle;Masao Kaneko', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1995'};{'id': 'j_56393484ef5aeabd6c4533b5b19a2699', 'zh_title': 'Electroreduction of carbon dioxide on gas-diffusion electrodes modified by metal phthalocyanines', 'authors': 'Nagakazu Furuya;Kuniyasu Matsui', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1989'};{'id': 'j_4a4fe8bf5a9f325d2c95b20f0a7e3271', 'zh_title': 'Carbon dioxide activation by cobalt(I) macrocycles: factors affecting carbon dioxide and carbon monoxide binding', 'authors': 'Etsuko Fujita;Carol Creutz;Norman Sutin;David J. Szalda', 'journal': 'Journal of the American Chemical Society', 'year': '1991'};{'id': 'j_c2ee023a307a680df860b6a58c537fe1', 'zh_title': 'Gas-phase electrocatalytic reduction of CO2 to CO on carbon gas-diffusion electrode promoted by cobalt phthalocyanine', 'authors': 'E. R. Savinova;S. A. Yashnik;E. N. Savinov;V. N. Parmon', 'journal': 'Reaction Kinetics and Catalysis Letters', 'year': '1992'};{'id': 'j_7ac108f209c6df7ffda9e5f4aa8a80fb', 'zh_title': 'Catalytic reduction of carbon dioxide at carbon electrodes modified with cobalt phthalocyanine', 'authors': 'Charles M. Lieber;Nathan S. Lewis', 'journal': 'Journal of the American Chemical Society', 'year': '1984'}","{'person_id': '9efc3c729c560981d8219f53bdd21479', 'orcid': ' ', 'name': 'Hiroshi Imaya', 'email': '', 'org_name': 'Ibaraki University', 'org_id': '05e8cff01063e8e958ac12e9cea9bf9c', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '66a3f720f098b45c587897660658c95a', 'orcid': ' ', 'name': 'Sumio Tokita', 'email': '', 'org_name': 'Saitama University', 'org_id': 'a1d1147254b290958ad4151ffd18d8b2', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '7efd1d4e792ef84e9a9a9ecfd36045ae', 'orcid': ' ', 'name': 'Dieter W?hrle', 'email': '', 'org_name': 'University of Bremen', 'org_id': '53dac48afa586bd648ed3c975dc4ac32', 'author_num': 6, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'a43b1f233fffae2d13b4279915ece4cc', 'orcid': ' ', 'name': 'Toshiyuki Abe', 'email': '', 'org_name': 'Saitama University', 'org_id': 'a1d1147254b290958ad4151ffd18d8b2', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '85fc26240d973dea7d8fbdd168017180', 'orcid': ' ', 'name': 'Masao Kaneko', 'email': '', 'org_name': 'Ibaraki University', 'org_id': '05e8cff01063e8e958ac12e9cea9bf9c', 'author_num': 7, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'cbcbd5e2dbd3712433685d2dc38befdd', 'orcid': 'https://orcid.org/0000-0003-0754-445X', 'name': 'Tsukasa Yoshida', 'email': '', 'org_name': 'Saitama University', 'org_id': 'a1d1147254b290958ad4151ffd18d8b2', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'ea8b3f31e76ac4e2dbd6a2c4532148b5', 'orcid': 'https://orcid.org/0000-0002-3446-196X', 'name': 'Derck Schlettwein', 'email': '', 'org_name': 'University of Bremen', 'org_id': '53dac48afa586bd648ed3c975dc4ac32', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_c62e9e65c14f67f72aceb3e6367d1023,10.1002/(sici)1099-1409(199710)1:4<323::aid-jpp46>3.0.co;2-q,Electrochemical Reduction of Nitrous Oxide (N2O) Catalysed by Tetraaminophthalocyanatocobalt(II) Adsorbed on a Graphite Electrode in Aqueous Solution,1997,JIUJUN ZHANG;YU-HONG TSE;A. B. P. LEVER;W. J. PIETRO,JIUJUN ZHANG,TRUE,1997/10/1,1,4,323,331,1088-4246;1099-1409,"<jats:p> The surface electrochemical response of the Co <jats:sup>II</jats:sup>/ Co <jats:sup>I</jats:sup> redox process of tetraaminophthalocyaninatocobalt(II) ( Co <jats:sup>II</jats:sup> TAPc ) adsorbed on a graphite electrode, was studied in the pH range of 2�C13. In aqueous solution, the Co <jats:sup>II</jats:sup> TAPc adsorbed graphite electrode displays very strong electrocatalytic activity toward N <jats:sub>2</jats:sub> O reduction to N <jats:sub>2</jats:sub>, a process which was examined by cyclic and rotating disk electrode voltammetries. The possible application of this Co <jats:sup>II</jats:sup> TAPc modified electrode in N <jats:sub>2</jats:sub> O analysis was explored. </jats:p>",Chemistry,Journal of Porphyrins and Phthalocyanines,Crossref;corpus;unpaywall;openalex;scimag,10,33,FALSE,,closed,��ѧ����ѧ��,{},"{'id': 'j_c43d30360c1cfcd5ca50856e18d3164c', 'zh_title': 'Metallophthalocyanine-based molecular materials as catalysts for electrochemical reactions', 'authors': 'Jos�� H. Zagal;Sophie Griveau;J. Francisco Silva;Tebello Nyokong;Fethi Bedioui', 'journal': 'Coordination Chemistry Reviews', 'year': '2010'};{'id': 'j_efb4ae85e69b8d3e27838a4ee09831f9', 'zh_title': 'Comprehensive Coordination Chemistry II || Reactivity and Structure of Complexes of Small Molecules: Nitric and Nitrous Oxide', 'authors': 'Olabe, J.A.', 'year': '2003'};{'id': 'j_5810aab6879ec40f1e74a643e8bddea7', 'zh_title': 'Biomimetic NOx Reductions by Heme Models and Proteins', 'authors': 'Emek  Blair;Filip  Sulc;Patrick J. Farmer', 'year': '2006'};{'id': 'j_0affcee951b8f5b873d0d949ec3600e3', 'zh_title': 'DEDICATION To Professor A. B. P. Lever on the Occasion of his 60th Birthday', 'authors': 'H. S. Nalwa', 'journal': 'Applied Organometallic Chemistry', 'year': '1996'};{'id': 'j_0b26c59b3741ba29d1d19f54b22fa545', 'zh_title': 'A career in phthalocyanine chemistry �C the Linstead Award 2002', 'authors': 'A. B. P. Lever', 'journal': 'Journal of Porphyrins and Phthalocyanines', 'year': '2004'};{'id': 'j_7f828b3a0b6b86e8e432fd6dee7ff7fe', 'zh_title': 'Sustainable removal of N2O by mediated electrocatalytic reduction at ambient temperature electro-scrubbing using electrogenerated Ni(I) electron mediator', 'authors': 'G. Muthuraman;A.G. Ramu;E. McAdam;I.S. Moon', 'journal': 'Journal of Hazardous Materials', 'year': '2019'};{'id': 'j_94ddc33960491cbf54fe4bf34160a3a1', 'zh_title': ""Surface electrochemistry of N,N',N��,N?-tetramethyl-tetra-3,4-pyridinoporphyrazinocobalt(II)"", 'authors': 'Junsheng Chen;Jiujun Zhang;Yu-Hong Tse;Pavel Janda;Dharamdat Christendat;A. B. P. Lever', 'journal': 'Journal of Porphyrins and Phthalocyanines', 'year': '2006'};{'id': 'j_10e0ff44305a5810c6217251b0458d85', 'zh_title': 'N2O dissolution with Couette-Taylor flow mixer for the effective electrochemical N2O reduction reaction', 'authors': 'Seungyeon Baek;Kwang Hwan Kim;Insoo Choi;Oh Joong Kwon;Jae Jeong Kim', 'journal': 'Chemical Engineering Journal', 'year': '2018'};{'id': 'j_b0f79b3fa5eac4b20877150951bc3ddc', 'zh_title': 'Effect of Liquid Electron Mediators on Continuous N2O Gas Removal at Room Temperature: Electrochemical and Electroscrubbing Analysis', 'authors': 'Muthuraman Govindan;Ramu Adam Gopal;Il Shik Moon', 'journal': 'Journal of The Electrochemical Society', 'year': '2019'};{'id': 'j_cecf6c0d2d16b0745f7d40c4feab58fe', 'zh_title': 'Reversible one-electron electro-reduction of O2 to produce a stable superoxide catalyzed by adsorbed Co(II) hexadecafluoro-phthalocyanine in aqueous alkaline solution', 'authors': 'Chaojie Song;Lei Zhang;Jiujun Zhang', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2006'}","{'id': 'j_64ab11fa1a5b73ca20f9f4c459a4d01d', 'zh_title': 'Poisoning effect of SCN?, H2S and HCN on the reduction of O2 and H2O2 catalyzed by a 1:1 surface complex of Cu: 1,10-phenanthroline adsorbed on graphite electrodes, and its possible application in chemical analysis', 'authors': 'Aldal��a L.B. Marques;Jiujun Zhang;A.B.P. Lever;William J. Pietro', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1995'};{'id': 'j_2140dbc91656d89d687d6fb3d3d61e8b', 'zh_title': 'Theory of Stationary Electrode Polarography.  Single Scan and Cyclic Methods Applied to Reversible, Irreversible, and Kinetic Systems.', 'authors': 'R. S. Nicholson;Irving. Shain', 'journal': 'Analytical Chemistry', 'year': '1964'};{'id': 'j_401446a45fe7d7ec0eb39b75449144b1', 'zh_title': 'Catalysis of electrode processes by multiply-charged metal complexes electrostatically bound to polyelectrolyte coatings on graphite electrodes, and the use of polymer-coated rotating disk electrodes in diagnosing kinetic and conduction mechanisms', 'authors': 'Noboru. Oyama;Fred C. Anson', 'journal': 'Analytical Chemistry', 'year': '1980'};{'id': 'j_fa8f4bd11e8fb3ffa23036ad2fb2a6d6', 'zh_title': 'Electrocatalytic activity of a graphite electrode coated with hexadecachlorophthalocyanatoiron(II) toward sulfide oxidation, and its possible application in electroanalysis', 'authors': 'Jiujun Zhang;A.B.P. Lever;W.J. Pietro', 'journal': 'Canadian Journal of Chemistry', 'year': '1995'};{'id': 'j_bf0931825446f0252b215b808d6aa3d3', 'zh_title': 'Quantum correction for the cathodic reaction of iron corrosion in dilute solutions of chloride and sulphate ions', 'authors': 'M. Parlapanski;M. Panaiotova', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1991'};{'id': 'j_eb7d78199d27bbe88562165f7084960f', 'zh_title': 'Mechanistic aspects of the electroreduction of dioxygen as catalyzed by copper-phenanthroline complexes adsorbed on graphite electrodes', 'authors': 'Yabin Lei;Fred C. Anson', 'journal': 'Inorganic Chemistry', 'year': '1994'};{'id': 'j_4e491130692c8748765984184665c50f', 'zh_title': 'Diffusion Coefficients for Hydrogen Sulfide, Carbon Dioxide, and Nitrous Oxide in Water over the Temperature Range 293-368 K', 'authors': 'A. Tamimi;Edward B. Rinker;Orville C. Sandall', 'journal': 'Journal of Chemical & Engineering Data', 'year': '1994'};{'id': 'j_fb16afda584e199c1f089436767d46b3', 'zh_title': 'Reduction of nitrous oxide by electrochemically-generated spillover hydrogen', 'authors': 'Kiyoshi  Otsuka;Hideaki  Yamagata', 'journal': 'Studies in Surface Science and Catalysis', 'year': '1993'};{'id': 'j_37e658f7cb6dfe4cffb5f9a124d86c3f', 'zh_title': 'Surface copper immobilization by chelation of alizarin complexone and electrodeposition on graphite electrodes, and related hydrogen sulfide electrochemistry; matrix isolation of atomic copper and molecular copper sulfides on a graphite electrode', 'authors': 'Jiujun Zhang;A.B.P. Lever;William J. Pietro', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1995'};{'id': 'j_f3459aace22d813d26490d1147254b81', 'zh_title': 'The electrochemical reduction of nitrous oxide in alkaline solution', 'authors': 'Keith E. Johnson;Donald T. Sawyer', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1974'};{'id': 'j_be855174cc0e93e1058fa36ab4e34f13', 'zh_title': 'Solubility and Diffusivity of N2O and CO2 in (Diethanolamine + N-Methyldiethanolamine + Water) and in (Diethanolamine + 2-Amino-2-methyl-1-propanol + Water)', 'authors': 'Meng-Hui Li;Wen-Cheng Lee', 'journal': 'Journal of Chemical & Engineering Data', 'year': '1996'};{'id': 'j_4d292c39b3bad55b9bdb6eb0ec262d17', 'zh_title': 'Effect of Pb, Cd and Tl adatoms on the reduction process of N2O on polyoriented Pt electrodes', 'authors': 'George Ritzoulis', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1992'};{'id': 'j_98586444943ac0040d2b6638836627eb', 'zh_title': 'Preparation and characterization of members of a homologous series of dihydridocarbonyl compounds of osmium', 'authors': 'J. R. Moss;W. A. G. Graham', 'journal': 'Inorganic Chemistry', 'year': '1977'};{'id': 'j_8247f6114ebfb25014819039413b1e1e', 'zh_title': 'Electrocatalysis of nitrous oxide reduction', 'authors': ""James P. Collman;Matt Marrocco;C. Michael Elliott;Maurice L'Her"", 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1981'};{'id': 'j_21c8f6d84770c16201d287cce02e3ef7', 'zh_title': 'Molecular design of electrode surfaces', 'authors': 'Royce W. Murray', 'year': '1992'};{'id': 'j_92a9c836fbd897273be2ae792073f8bb', 'zh_title': 'Electrocatalytic oxidation of oxalic acid at electrodes coated with polymeric metallophthalocyanines', 'authors': 'Huawen Li;Thomas F. Guarr', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1991'};{'id': 'j_be21f7eb0fa232d408f527732b613d40', 'zh_title': 'Monomeric and Polymeric Tetra-aminophthalocyanatocobalt(II) Modified\n                        Electrodes: Electrocatalytic Reduction of Oxygen', 'authors': 'YU-HONG TSE;PAVEL JANDA;HERMAN LAM;JIUJUN ZHANG;WILLIAM J. PIETRO;A. B. P. LEVER', 'journal': 'Journal of Porphyrins and Phthalocyanines', 'year': '1997'};{'id': 'j_ffdfee55feff5d209385dfd3bc3a8b79', 'zh_title': 'Reaction of Cob(I)alamin with nitrous oxide and Cob(III)alamin', 'authors': 'Robert Blackburn;Maung Kyaw;A. John Swallow', 'journal': 'Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry in Condensed Phases', 'year': '1977'};{'id': 'j_a38a8e08680d4a1dc901d0a5d4a14025', 'zh_title': 'Formation and reactions of (NH3)5RuN2O2+]', 'authors': 'John N. Armor;H. Taube', 'journal': 'Journal of the American Chemical Society', 'year': '1969'};{'id': 'j_bafdf3425bf788e7dbb7b10e061430a8', 'zh_title': 'Coordination of Fe3+ by ��alizarin complexone�� adsorbed on graphite electrodes to produce electrocatalysts for the reduction of O2 and H2O2', 'authors': 'Jiujun Zhang;Fred C. Anson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1993'};{'id': 'j_cdfdf3584ae88a01f412287290556015', 'zh_title': 'Electrocatalytic reactions on carbon fibre electrodes modified by hemine II. Electro-oxidation of hydrazine', 'authors': 'S. Antoniadou;A.D. Jannakoudakis;E. Theodoridou', 'journal': 'Synthetic Metals', 'year': '1989'};{'id': 'j_76f956731588211a077a95a2d17fc27e', 'zh_title': 'Electrocatalysis for N2O reduction on metal electrodes', 'authors': 'Akihiko Kudo;Akiyo Mine', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1996'};{'id': 'j_1e83ec4efe3f0b5db5ac89bb0cf35154', 'zh_title': 'Anodic oxidation of hydrazine on glassy carbon modified by macrocyclic transition metal complexes', 'authors': 'Baochen Wang;Xueqiang Cao', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1991'};{'id': 'j_97147364683ca9275f8b40031a0326fa', 'zh_title': 'Measurement of the diffusion coefficients of carbon dioxide and nitrous oxide in water and aqueous solutions of glycerol', 'authors': 'W. J. Thomas;M. J. Adams', 'journal': 'Transactions of the Faraday Society', 'year': '1965'};{'id': 'j_cb5e90e42a038daafac8fa52a7ee6500', 'zh_title': 'Electrocatalytic amperometric detection at polymeric cobalt phthalocyanine electrodes', 'authors': 'Xiaohe Qi;Richard P. Baldwin;Huawen Li;Thomas F. Guarr', 'journal': 'Electroanalysis', 'year': '1991'};{'id': 'j_c77691f6cd01fe4d9f038e08099f20e5', 'zh_title': 'Cyclic and differential pulse voltammetric behavior of reactants confined to the electrode surface', 'authors': 'Alan P. Brown;Fred C. Anson', 'journal': 'Analytical Chemistry', 'year': '1977'};{'id': 'j_085b27bb3149a8834a754576df83dffd', 'zh_title': 'Cathodic reduction of oxygen and hydrogen peroxide at cobalt and iron crowned phthalocyanines adsorbed on highly oriented pyrolytic graphite electrodes', 'authors': 'Nagao Kobayashi;Pavel Janda;A. B. P. Lever', 'journal': 'Inorganic Chemistry', 'year': '1992'};{'id': 'j_08cbf04cf402060127bdc43607e621de', 'zh_title': 'Electrode with electropolymerized tetraaminophthalocyanatocobalt(II) for detection of sulfide ion', 'authors': 'Yu-Hong. Tse;Pavel. Janda;Herman. Lam;A. B. P. Lever', 'journal': 'Analytical Chemistry', 'year': '1995'};{'id': 'j_be48b902c18402624cd9f64cfe11aa51', 'zh_title': 'Electrocatalysts for the four-electron reduction of dioxygen based on adsorbed cobalt tetrapyridylporphyrin molecules linked by aquaammine complexes of ruthenium(II)', 'authors': 'Chunnian Shi;Fred C. Anson', 'journal': 'Inorganica Chimica Acta', 'year': '1994'};{'id': 'j_d28179ae71969eae4ab9667d3f9b5d57', 'zh_title': 'Electrochemical reduction of nitrite and nitric oxide catalyzed by an iron-alizarin complexone adsorbed on a graphite electrode', 'authors': 'Jiujun Zhang;A. B. P. Lever;William J. Pietro', 'journal': 'Inorganic Chemistry', 'year': '1994'};{'id': 'j_91fc9836b7f17f54a676310b36ca3b84', 'zh_title': 'Heterogeneous electron transfer at electrodes coated with electronically conducting nickel-tetraaminophthalocyanine polymer films', 'authors': 'Hai Mu Xi;Franklin A. Schultz', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1993'};{'id': 'j_53a71e94db54d1737302640d3e69142a', 'zh_title': 'Electrocatalytic activity of N,N��,N��,N?-tetramethyl-tetra-3,4-pyridoporphyrazinocobalt(II) adsorbed on a graphite electrode towards the oxidation of hydrazine and hydroxylamine', 'authors': 'Jiujun Zhang;Yu-Hong Tse;William J. Pietro;A.B.P. Lever', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1996'};{'id': 'j_6aab9f8d3425d7379829ea32c960dcb0', 'zh_title': 'The reduction of nitrous oxide on platinum electrodes in acid solution', 'authors': 'Helen Ebert;Roger Parsons;George Ritzoulis;Ted VanderNoot', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1989'}","{'person_id': '801fb6d386f20109d1394aa40b15c1a4', 'orcid': ' ', 'name': 'Jiujun Zhang', 'email': '', 'org_name': 'York University', 'org_id': '75e8967880058f86ecce10d4b005bd91', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '0ec4616957afab97dd9c73e740614787', 'orcid': 'https://orcid.org/0000-0001-5083-2022', 'name': 'William J. Pietro', 'email': '', 'org_name': 'York University', 'org_id': '75e8967880058f86ecce10d4b005bd91', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'ab896a2758e050094ceb0dbdc536628b', 'orcid': ' ', 'name': 'Yu-Hong Tse', 'email': '', 'org_name': 'York University', 'org_id': '75e8967880058f86ecce10d4b005bd91', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '0611c7f00d5c5b369c2755f28246a7ca', 'orcid': ' ', 'name': 'A. B. P. Lever', 'email': '', 'org_name': 'York University', 'org_id': '75e8967880058f86ecce10d4b005bd91', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_ac0ec5c786e3234961ef7adc436e08af,10.1002/(sici)1099-1409(199710)1:4<333::aid-jpp40>3.0.co;2-4,"Cobalt Octaethyltetrapyrazinoporphyrazine: Spectroscopy, and Electrocatalytic and Kinetic Study of Dioxygen Reduction at a Glassy Carbon Electrode",1997,SHAOJUN DONG;BAIFENG LIU;JUNLI LIU;NAGAO KOBAYASHI,SHAOJUN DONG,TRUE,1997/10/1,1,4,333,340,1088-4246;1099-1409,"<jats:p> Cobalt octaethyltetrapyrazinoporphyrazine was synthesized and characterized by electronic absorption and magnetic circular dichroism spectroscopy. These spectroscopies and molecular orbital calculations within the framework of the Pariser�CParr�CPople approximation revealed that the effective ��-conjugation system of octaethyltetrapyrazinoporphyrazine is smaller than phthalocyanines. For the first time, the electrochemical behaviour of cobalt octaethyltetrapyrazinoporphyrazine irreversibly adsorbed onto a glassy carbon electrode as a surface modifier is reported. The cobalt derivative/glassy carbon electrode showed catalytic activity for oxygen reduction. Surprisingly, the peak potentials for oxygen reduction at this electrode coincide well with those where Co <jats:sup>II</jats:sup> is reduced to Co <jats:sup>I</jats:sup> over the whole pH range, indicating that the active species for dioxygen reduction is Co <jats:sup>I</jats:sup> rather than the Co <jats:sup>II</jats:sup> species. A possible mechanism for the electrocatalysis of oxygen is discussed. </jats:p>",Chemistry,Journal of Porphyrins and Phthalocyanines,Crossref;corpus;unpaywall;openalex;scimag,17,23,FALSE,,closed,��ѧ����ѧ��,"{'org_name': 'To��hoku University', 'org_id': '33e5f0dad330e40a00d9578a0ee4e764'}","{'id': 'j_8200d6d854b7a9cbc51e62418548b375', 'zh_title': 'Steamrollers, Sports Cars and Security: Phthalocyanine Progress Through the Ages', 'authors': 'P. GREGORY', 'journal': 'Journal of Porphyrins and Phthalocyanines', 'year': '1999'};{'id': 'j_32b55584c1bb7b6095bf87d898f1a199', 'zh_title': 'The interaction of cobalt tetrasulfophthalocyanine and octasulfophenyltetrapyrazinoporphyrazine with ascorbic acid', 'authors': 'A. S. Pogorelova;E. A. Vlasova;M. N. Malinkina;S. V. Makarov;O. I. 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+j_ce4fbeb3417bd93782b1ffd12f14f468,10.1002/(sici)1099-1409(199805/06)2:3<249::aid-jpp77>3.0.co;2-3,The Mechanism of Dioxygen Reduction at Iron meso-Tetrakis (Pyridyl) Porphyrin: a Spectroelectrochemical Study,1998,S. POPOVICI;W. LEYFFER;R. HOLZE,S. POPOVICI,TRUE,1998/5/1,2,3,249,260,1088-4246;1099-1409,"<jats:p> The mechanism of the dioxygen interaction with and reduction reaction at iron ��,��,��,��-tetra(4-pyridyl) porphyrin ( FeTPyP ) deposited on carbon and silver supporting electrodes was investigated with cyclic voltammetry and FTIR, UV-vis and resonance Raman spectroscopies. Results indicate a strong influence of the ligand upon the reduction electrocatalysis. Spectroelectrochemical results support a two-electron pathway resulting most probably in hydrogen peroxide as the primary reduction product. </jats:p>",Chemistry,Journal of Porphyrins and Phthalocyanines,Crossref;corpus;unpaywall;openalex;scimag,9,86,FALSE,,closed,��ѧ����ѧ��,"{'org_name': 'Chemnitz University of Technology', 'org_id': '8675cabfce0e705bc935806006e09fbd'}","{'id': 'j_081e1764996ae30afba81cc8fd1b0bee', 'zh_title': 'Direct Methanol Fuel Cells: Fundamentals, Problems and Perspectives', 'authors': 'Keith  Scott;A. K. Shukla', 'year': '2007'};{'id': 'j_52ace9b114022a66e6a56dd39278bdff', 'zh_title': 'Dioxygen at Biomimetic Single Metal-Atom Sites: Stabilization or Activation? The Case of CoTPyP/Au(111)', 'authors': 'F. Armillotta;A. Pividori;M. Stredansky;N. Seriani;E. 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Spiro', 'journal': 'Journal of the American Chemical Society', 'year': '1978'};{'id': 'j_0f94ad6a960e95e52b2543d3a74268c6', 'zh_title': 'Electroanalytical study of the activation of dioxygen in acetonitrile solution by manganese porphyrin films deposited onto carbon electrodes', 'authors': 'Silvia Gutierrez-Granados;Fethi Bedioui;Jacques Devynck', 'journal': 'Electrochimica Acta', 'year': '1993'};{'id': 'j_943d6df6ee820c305c97bc7b3aabfc12', 'zh_title': 'Resonance Raman studies of macrocyclic complexes. 1. Structural and electronic effects in synthetic metal(II) porphyrin analogs', 'authors': 'William H. Woodruff;Richard W. Pastor;James C. Dabrowiak', 'journal': 'Journal of the American Chemical Society', 'year': '1976'}","{'person_id': 'bdcf3caf20ab3682263045909140643f', 'orcid': ' ', 'name': 'W. 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+j_f02eba19a507b522e42a275d72190522,10.1002/(sici)1099-1409(199904)3:4<265::aid-jpp131>3.0.co;2-e,On the Mechanism of Dioxygen Electroreduction at Transition Metal meso-Tetrakis Pyridyl Porphyrins��a Comparative Spectroelectrochemical Study,1999,S. POPOVICI;W. LEYFFER;R. HOLZE,S. POPOVICI,TRUE,1999/4/1,3,4,265,282,1088-4246;1099-1409,"<jats:p> The mode of interaction with and the mechanism of the dioxygen reduction reaction at six transition metal ��,��,��,��-tetra(4-pyridyl)porphyrins (MeTPyPs) deposited on carbon and silver supporting electrodes were investigated with cyclic voltammetry, FTIR and UV-vis spectroscopy and resonance Raman spectroscopy. Results indicate a strong influence of both the ligand and the central metal ion upon the reduction electrocatalysis in terms of electrode overpotentials. Spectroelectrochemical results support a two-electron pathway resulting in hydrogen peroxide as the primary reduction product. A significant influence of the central ion on the vibrational behaviour and the dioxygen reduction mechanism was not found. </jats:p>",Chemistry,Journal of Porphyrins and Phthalocyanines,Crossref;corpus;unpaywall;openalex;scimag,8,104,FALSE,,closed,��ѧ����ѧ��,"{'org_name': 'Chemnitz University of Technology', 'org_id': '8675cabfce0e705bc935806006e09fbd'}","{'id': 'j_983909e71a94a1b47c39a1ce011df39c', 'zh_title': 'Dioxygen reduction using electrochemically reduced graphene oxide - Polymerized cobalt-4-pyridylporphyrin composite', 'authors': 'Neha Saran;Tincy Lis Thomas;Purushothaman Bhavana', 'journal': 'International Journal of Hydrogen Energy', 'year': '2022'};{'id': 'j_0ee4876f679369657e687cc434e87888', 'zh_title': 'Synthesis of coordination polymers of cobalt meso-pyridylporphyrins and its oxygen reduction properties', 'authors': 'Neha Saran;Tincy Lis Thomas;Purushothaman Bhavana', 'journal': 'Journal of Molecular Structure', 'year': '2021'};{'id': 'j_2e5d4956ee0b41380b7739d43c33203f', 'zh_title': 'Nitrosylation of Manganese(II) Tetrakis(N-ethylpyridinium-2-yl)porphyrin: A Simple and Sensitive Spectrophotometric Assay for Nitric Oxide', 'authors': 'Ivan Spasojevi?;Ines Batini?-Haberle;Irwin Fridovich', 'journal': 'Nitric oxide : biology and chemistry', 'year': '2000'};{'id': 'j_05e83936055b9423fbd49d6ca37d9478', 'zh_title': 'Ionic self-assembly of metalloporphyrin/heteropolyacid on multi-wall carbon nanotubes with enhanced electrocatalytic activity toward oxygen reduction reaction', 'authors': 'Hongsa Han;Ziwei Cao;Yunlong Zhang;Jiaqi Qin;Yujiang Song', 'journal': 'Journal of Porphyrins and Phthalocyanines', 'year': '2019'};{'id': 'j_0ab3809f02003d885df4f760c291e063', 'zh_title': 'Electrocatalytic reduction of oxygen at electrodes coated with a bimetallic cobalt(ii)/platinum(ii) porphyrin', 'authors': 'Kalyan Gadamsetti;Shawn Swavey', 'journal': 'Dalton Transactions', 'year': '2006'};{'id': 'j_50579ad710983ee355f37552520bc4ad', 'zh_title': 'The reduction of oxygen and hydrogen peroxide on dinuclear ruthenium phthalocyanine electrocatalytic surfaces', 'authors': 'Mehrdad Ebadi;Christos Alexiou;A BP Lever', 'journal': 'Canadian Journal of Chemistry', 'year': '2001'};{'id': 'j_ce9f967555567abeadf21c890ca10592', 'zh_title': 'Comprehensive Coordination Chemistry II || Spectroelectrochemistry', 'authors': 'Crayston, J.A.', 'year': '2003'};{'id': 'j_4240f10bab499db679bac09cb125e80b', 'zh_title': 'Non-platinum electrocatalysts: Manganese oxide nanoparticle-cobaltporphyrin binary catalysts for oxygen reduction', 'authors': 'Mohamed S. El-Deab;Sameh H. Othman;Takeyoshi Okajima;Takeo Ohsaka', 'journal': 'Journal of Applied Electrochemistry', 'year': '2008'}",{},"{'person_id': 'bdcf3caf20ab3682263045909140643f', 'orcid': ' ', 'name': 'W. Leyffer', 'email': '', 'org_name': 'Chemnitz University of Technology', 'org_id': '8675cabfce0e705bc935806006e09fbd', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '7f2f3b737dc3da12bbd8f3d5e2463445', 'orcid': ' ', 'name': 'S. Popovici', 'email': '', 'org_name': 'Chemnitz University of Technology', 'org_id': '8675cabfce0e705bc935806006e09fbd', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '9ee9ad2113550f2ab49b97544033005e', 'orcid': 'https://orcid.org/0000-0002-3516-1918', 'name': 'Rudolf Holze', 'email': '', 'org_name': 'Chemnitz University of Technology', 'org_id': '8675cabfce0e705bc935806006e09fbd', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_4a8525a5235cfae3548a2a165a400b45,10.1002/(sici)1099-1409(199906)3:5<355::aid-jpp144>3.0.co;2-u,Synthesis and electrocatalytic properties of octaalkoxycobalt phthalocyanine for the oxidation of 2-mercaptoethanol,1999,JOS�� H. ZAGAL;Miguel A. GULPPI;CHRISTELLE DEPRETZ;DOMINIQUE LELI��VRE,JOS�� H. ZAGAL,TRUE,1999/6/1,3,5,355,363,1088-4246;1099-1409,"<jats:p> We report on the synthesis of cobalt 2,3,9,10,16,17,23,24-octakis(2-ethylhexyloxy)phthalocyanine. This complex, when pre-adsorbed onto graphite electrodes, is active for the electro-oxidation of 2-mercaptoethanol. Its activity is higher than that of cobalt phthalocyanine and cobalt tetrasulfonated phthalocyanine adsorbed on graphite. The voltammetric response of adsorbed cobalt 3,4-octaethylhexyl- oxyphthalocyanine exhibits both Co ( II )/ Co ( I ) and Co ( III )/ Co ( II ) reversible processes. However, the Co ( III )/ Co ( II ) couple shows a pH dependence that is different from that reported for other cobalt phthalocyanine derivatives. The much higher activity of cobalt 3,4-octaethylhexyloxyphthalocyanine compared with cobalt tetrasulfonated phthalocyanine and cobalt phthalocyanine is attributed to the electron-donating ability of the ethylhexyloxy substituents on the periphery of the phthalocyanine ligand. </jats:p>",Chemistry,Journal of Porphyrins and Phthalocyanines,Crossref;corpus;unpaywall;openalex;scimag,55,34,FALSE,,closed,��ѧ����ѧ��,"{'org_name': '������������', 'org_id': 'e8b76cf17eaffab760212f2446c8b290'};{'org_name': 'ESPCI, Chimie Inorganique et Materiaux Mol��culaires (CIMM), ESA 7071, 10 Rue Vauquelin, F-75231 Paris Cedex 05, France', 'org_id': '2cd0e2c8e3660adbae6c22300961d3c6'}","{'id': 'j_e552aca05ff050eead464a83444e6dfb', 'zh_title': 'Paradoxical effect of the redox potential of adsorbed metallophthalocyanines on their activity for the oxidation of 2-mercaptoethanol. Inner versus outer sphere electrocatalysis', 'authors': 'Jos�� H. Zagal;Miguel A. Gulppi;Claudia A. Caro;Gloria I. C��rdenas-Jir��n', 'journal': 'Electrochemistry Communications', 'year': '1999'};{'id': 'j_e1024b437fb89da2907f1617186be3bc', 'zh_title': 'Comprehensive Inorganic Chemistry II || Metallomesogens', 'authors': 'Torroba, J.', 'year': '2013'};{'id': 'j_ea5b6802d1fe971b2d3bde24698b69c8', 'zh_title': 'Efficient organo-photocatalysis system of an n-type perylene derivative/p-type cobalt phthalocyanine bilayer for the production of molecular hydrogen from hydrazine', 'authors': 'Toshiyuki Abe;Yoshinori Tanno;Naohiro Taira;Keiji Nagai', 'journal': 'RSC Adv.', 'year': '2015'};{'id': 'j_9c6632dd0641b07400209accf51269ff', 'zh_title': 'Effect of the Substituents on the Ligand of Iron Phthalocyanines Adsorbed on Graphite Electrodes on Their Activity for the Electrooxidation of 2-Mercaptoethanol', 'authors': 'Mar��a\u2005J. Aguirre;Mauricio Isaacs;Francisco Armijo;Luis Bas��ez;Jos��\u2005H. Zagal', 'journal': 'Electroanalysis', 'year': '2002'};{'id': 'j_ca7346c1427f162d9370d5439e68c737', 'zh_title': 'Reinterpreting the Role of the Catalyst Formal Potential. The case of Thiocyanate Electrooxidation Catalyzed by CoN4-Macrocyclic Complexes', 'authors': 'C. Linares-Flores;D. Mac-Leod Carey;A. Mu?oz-Castro;J. H. Zagal;J. Pavez;D. Pino-Riffo;R. Arratia-P��rez', 'journal': 'The Journal of Physical Chemistry C', 'year': '2012'};{'id': 'j_6c136ee24030d42a376d8287ce94ee9f', 'zh_title': 'Overoxidized Polypyrrole/Cobalt Tetrasulfonated Phthalocyanine Modified Ultramicro�\Carbon�\Fiber Electrodes for the Electrooxidation of 2�\Mercaptoethanol', 'authors': 'Miguel Gulppi;Fethi Bedioui;Jos�� H. Zagal', 'journal': 'Electroanalysis', 'year': '2001'};{'id': 'j_ab968637011193bf9a5aa58362b6b7ce', 'zh_title': 'Novel photofunctions of bilayer composed of p-type phthalocyanine and n-type organic semiconductor as photoelectrodes in the water phase', 'authors': 'Toshiyuki Abe;Keiji Nagai', 'journal': 'Organic Electronics', 'year': '2007'};{'id': 'j_f729737414b0a726d4d3b7fd47e1d65f', 'zh_title': 'Surface properties of self-assembled monolayer films of tetra-substituted cobalt, iron and manganese alkylthio phthalocyanine complexes', 'authors': 'Isaac Adebayo Akinbulu;Samson Khene;Tebello Nyokong', 'journal': 'Electrochimica Acta', 'year': '2010'};{'id': 'j_642e28f4180728e51397c0d6dbf5531a', 'zh_title': 'Optimizing the Electrocatalytic Activity of Surface Confined Co Macrocyclics for the Electrooxidation of Thiocyanate at pH\u20054', 'authors': 'Mamie Sancy;Jorge Pavez;Miguel A. Gulppi;Ivanildo Luiz de\u2005Mattos;Ramiro Arratia-Perez;Cristian Linares-Flores;Maritza Paez;Tebello Nyokong;Jos�� H. Zagal', 'journal': 'Electroanalysis', 'year': '2011'};{'id': 'j_0a176bd9c61358cafd9b46ee2a6d68e1', 'zh_title': 'Optimization of the electrocatalytic activity of MN4-macrocyclics adsorbed on graphite electrodes for the electrochemical oxidation of L-cysteine by tuning the M (II)/(I) formal potential of the catalyst: an overview', 'authors': 'Francisco J. Recio;Cristian A. Gutierrez;Ricardo Venegas;Cristian Linares-Flores;Claudia A. Caro;Jos�� H. Zagal', 'journal': 'Electrochimica Acta', 'year': '2014'};{'id': 'j_f413c0160c0930e93a233c5463f716e9', 'zh_title': 'Determination of Metribuzin with a Cobalt Phthalocyanine-Modified Carbon Paste Electrode', 'authors': 'Eduardo Carneiro Figueira;Mayara Regina dos Santos Ruy;Ademar Wong;Lu��s Moreira Gon?alves;Maria del Pilar Taboada Sotomayor', 'journal': 'Analytical Letters', 'year': '2018'};{'id': 'j_cdec96c312e6349ec1c6359969633f4e', 'zh_title': 'Electro-oxidation of 2-mercaptoethanol on adsorbed monomeric and electropolymerized cobalt tetra-aminophthalocyanine films. Effect of film thickness', 'authors': 'Sophie Griveau;Jorge Pavez;Jos�� H. Zagal;Fethi Bedioui', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2001'};{'id': 'j_0924ff711b678ba3a38ee2394d7dbf3f', 'zh_title': 'N4-Macrocyclic Metal Complexes || Electrodes Modified with Monomeric M-N4 Catalysts for the Detection of Environmentally Important Molecules', 'authors': 'Zagal, Jos�� H.; Bedioui, Fethi; Dodelet, Jean-Pol ', 'year': '2006'};{'id': 'j_1d05831877d8586c8f6665125945fae7', 'zh_title': 'Carbon nanotubes and metalloporphyrins and metallophthalocyanines-based materials for electroanalysis', 'authors': 'Jos�� H. Zagal;Sophie Griveau;Mireya Santander-Nelli;Silvia Gutierrez Granados;Fethi Bedioui', 'journal': 'Journal of Porphyrins and Phthalocyanines', 'year': '2012'};{'id': 'j_51ca836c37b2a761166765654c9feb4f', 'zh_title': 'Triazolephthalocyanines: synthesis, supramolecular organization and physical properties', 'authors': 'M��nica Nicolau;Beatriz Cabez��n;Tom��s Torres', 'journal': 'Coordination Chemistry Reviews', 'year': '1999'};{'id': 'j_c05308d9193cee3621dcefe1bd7586ab', 'zh_title': 'Electrochemical Characterization of Self-Assembled Monolayer of a Novel Manganese Tetrabenzylthio-Substituted Phthalocyanine and Its Use in Nitrite Oxidation', 'authors': 'Fungisai Matemadombo;Sophie Griveau;Fethi Bedioui;Tebello Nyokong', 'journal': 'Electroanalysis', 'year': '2008'};{'id': 'j_ff94d05c1026807878a349405986bd53', 'zh_title': 'Characterization of manganese tetraarylthiosubstituted phthalocyanines self assembled monolayers', 'authors': 'Fungisai Matemadombo;Mahmut Durmu?;Chamunorwa Togo;Janice Limson;Tebello Nyokong', 'journal': 'Electrochimica Acta', 'year': '2009'};{'id': 'j_ec7decf9291ead024a01d21e642751e0', 'zh_title': 'Metal-centered redox chemistry of substituted cobalt phthalocyanines adsorbed on graphite and correlations with MO calculations and Hammett parameters. Electrocatalytic reduction of a disulfide', 'authors': 'Jos�� H Zagal;Miguel A Gulppi;Gloria C��rdenas-Jir��n', 'journal': 'Polyhedron', 'year': '2000'};{'id': 'j_259898f5dd13b3bead82928a521fe4d2', 'zh_title': 'In Search of the Best Iron N4-Macrocyclic Catalysts Adsorbed on Graphite Electrodes and on Multi-walled Carbon Nanotubes for the Oxidation of l-Cysteine by Adjusting the Fe(II)/(I) Formal Potential of the Complex', 'authors': 'Cristian A. Gutierrez;J. Francisco Silva;F. Javier Recio;Sophie Griveau;Fethi Bedioui;Claudia A. Caro;Jos�� H. Zagal', 'journal': 'Electrocatalysis', 'year': '2014'};{'id': 'j_5a399d281cff0d673c4823da7f741ea8', 'zh_title': 'Inverted correlations between rate constants and redox potential of the catalyst for the electrooxidation of 2-aminoethanethiol mediated by surface confined substituted cobalt-phthalocyanines', 'authors': 'Miguel A. Gulppi;Maritza A. Paez;Juan A. Costamagna;Gloria C��rdenas-Jir��n;Fethi Bedioui;Jos�� H. Zagal', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2005'};{'id': 'j_377e40b56114df00f610b013ea7abcf5', 'zh_title': 'Biocompatible chitosan-pectin polyelectrolyte complex for simultaneous electrochemical determination of metronidazole and metribuzin', 'authors': 'Palraj Ranganathan;Bhuvanenthiran Mutharani;Shen-Ming Chen;Pedaballi Sireesha', 'journal': 'Carbohydrate Polymers', 'year': '2019'};{'id': 'j_a1f59c25704f0bec1a4247ab5cff3558', 'zh_title': 'Tetra chlorobenzoxazolamine nickel (II) phthalocyanine supercapacitor with aqueous electrolyte and MWCNTs', 'authors': 'N. Y. Praveen Kumar;Mounesh;T. M. Sharanakumar;K. R. Venugopala Reddy', 'journal': 'Chemical Papers', 'year': '2021'};{'id': 'j_2c0e365c2d2a957a29fe71118b9fd7e7', 'zh_title': 'Formation, surface characterization, and electrocatalytic application of self-assembled monolayer films of tetra-substituted manganese, iron, and cobalt benzylthio phthalocyanine complexes', 'authors': 'Isaac Adebayo Akinbulu;Kenneth Iyke Ozoemena;Tebello Nyokong', 'journal': 'Journal of Solid State Electrochemistry', 'year': '2010'};{'id': 'j_415194d106f9520385f838de897ba373', 'zh_title': 'Electroanalysis of thiocyanate using a novel glassy carbon electrode modified by aryl radicals and cobalt tetracarboxyphthalocyanine', 'authors': 'Fungisai Matemadombo;Philippe Westbroek;Tebello Nyokong', 'journal': 'Electrochimica Acta', 'year': '2007'};{'id': 'j_60deec5f29ad489f8a37b8b5de549ffb', 'zh_title': 'Syntheses and electrochemical characterization of new water soluble octaarylthiosubstituted manganese phthalocyanines', 'authors': 'Irvin Booysen;Fungisai Matemadombo;Mahmut Durmu?;Tebello Nyokong', 'journal': 'Dyes and Pigments', 'year': '2011'};{'id': 'j_8e8b1bb04ee2406ef3c8a358b8fdaecd', 'zh_title': 'Reactivity trends of surface-confined Co-tetraphenyl porphyrins and vitamin B12 for the oxidation of 2-aminoethanethiol: Comparison with Co-phthalocyanines and oxidation of other thiols', 'authors': 'Gonzalo Ochoa;Cristi��n Gutierrez;Ingrid Ponce;J. Francisco Silva;Maritza P��ez;Jorge Pavez;Jos�� H. Zagal', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2010'};{'id': 'j_7640a77ffa82893e4d30aa80cae445a9', 'zh_title': 'Reactivity descriptors for iron porphyrins and iron phthalocyanines as catalysts for the electrooxidation of reduced glutathione', 'authors': 'Cristian Guti��rrez-Cer��n;Maritza A. P��ez;Jos�� H. Zagal', 'journal': 'Journal of Solid State Electrochemistry', 'year': '2016'};{'id': 'j_1b01049f9d4781a65a0fe77d6112ca06', 'zh_title': 'Syntheses, spectral, electrochemical and thermal studies of mononuclear manganese(III) complexes with ligands derived from 1,2-propanediamine and 2-hydroxy-3 or 5-methoxybenzaldehyde: Self-assembled monolayer formation on nanostructure zinc oxide thin film', 'authors': 'Mohammad Hossein Habibi;Elham Askari;Mehdi Amirnasr;Ahmad Amiri;Yuki Yamane;Takayoshi Suzuki', 'journal': 'Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy', 'year': '2011'};{'id': 'j_ecf4da273a4449caa49454c8cc7a0136', 'zh_title': 'Reactivity indexes for the electrocatalytic oxidation of hydrogen peroxide promoted by several ligand-substituted and unsubstituted Co phthalocyanines adsorbed on graphite', 'authors': 'C��sar Z��?iga;Federico Tasca;Sebasti��n Calderon;Diego Far��as;Francisco J. Recio;Jos�� H. Zagal', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2016'};{'id': 'j_8b84b374ca6a5e065ee644775ade4193', 'zh_title': 'Voltammetric characterization of the self-assembled monolayer (SAM) of octabutylthiophthalocyaninatoiron(II): a potential electrochemical sensor', 'authors': 'Kenneth Ozoemena;Tebello Nyokong', 'journal': 'Electrochimica Acta', 'year': '2002'};{'id': 'j_73789fc0b2e531ed264f1bcaa5ae73c6', 'zh_title': 'Electrochemical behaviour of thiol-derivatised zinc (II) phthalocyanine complexes and their self-immobilised films at gold electrodes', 'authors': 'Kenneth I. 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Zagal', 'journal': 'Journal of Solid State Electrochemistry', 'year': '2007'};{'id': 'j_3a1ce73e006b9cbb1461aefae453ffb5', 'zh_title': 'Electrocatalytic activity of cobalt phthalocyanine CoPc adsorbed on a graphite electrode for the oxidation of reduced l-glutathione (GSH) and the reduction of its disulfide (GSSG) at physiological pH', 'authors': 'Nazar�� Pereira-Rodrigues;Rodrigo Cofr��;Jos�� H. Zagal;Fethi Bedioui', 'journal': 'Bioelectrochemistry', 'year': '2007'};{'id': 'j_25093999440959faf7be32190c30a437', 'zh_title': 'Electrode modification using nanocomposites of electropolymerised cobalt phthalocyanines supported on multiwalled carbon nanotubes', 'authors': 'Stephen Nyoni;Philani Mashazi;Tebello Nyokong', 'journal': 'Journal of Solid State Electrochemistry', 'year': '2015'};{'id': 'j_389c2b345af1644116f0637cc7beb023', 'zh_title': 'Catalytic Oxidation of 2-Mercaptoethanol by Cobalt(II)phthalocyanines Bearing Chalcone with Furan and Thiophene', 'authors': 'H��seyin Karaca', 'journal': 'Sakarya University Journal of Science', 'year': '2018'};{'id': 'j_3b40f780d2e418a2abd64948eaadf79b', 'zh_title': 'Photoelectrochemical and photocatalytic investigation of the oxidative formation of H2 from a borane-ammonia complex using an organic p-n bilayer comprising a p-type cobalt phthalocyanine and an n-type perylene derivative', 'authors': 'Kentaro Fujine;Yuka Sato;Keiji Nagai;Toshiyuki Abe', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2018'};{'id': 'j_b259acffa3a58ec5fb5b9e727eebd912', 'zh_title': 'Electrocatalytic Oxidation of 2-Mercaptoethanol by Electropolymerized Cobalt Porphyrin Film on Vitreous Carbon Electrodes', 'authors': 'Sophie Griveau;Fethi Bedioui', 'journal': 'Electroanalysis', 'year': '2001'};{'id': 'j_c18eeb6272e910141c37d3f723529834', 'zh_title': 'NOx removal in a rotating packed bed: Oxidation and enhanced absorption process optimization', 'authors': 'Yong Cai;Yong Luo;Guang-Wen Chu;Wei Wu;Xiao Yu;Bao-Chang Sun;Jian-Feng Chen', 'journal': 'Separation and Purification Technology', 'year': '2019'};{'id': 'j_064c7bd8b7d9ad9fc32a4b105552f045', 'zh_title': 'The Porphyrin Handbook || Synthesis of Phthalocyanine Precursors', 'authors': 'SHARMAN, WESLEY M.', 'year': '2003'};{'id': 'j_9dd36c0fad3612e4b4fb9c64d25e01c7', 'zh_title': 'Tuning the redox properties of metalloporphyrin- and metallophthalocyanine-based molecular electrodes for the highest electrocatalytic activity in the oxidation of thiols', 'authors': 'Fethi Bedioui;Sophie Griveau;Tebello Nyokong;A. 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+j_4e68aa8bece766ef8c06a5833d006ffa,10.1002/(sici)1099-1409(199908/10)3:6/7<544::aid-jpp173>3.0.co;2-7,"The Involvement of Phycocyanin Pigment in the Photodecomposition of the Cyanobacterial Toxin, Microcystin-LR",1999,PETER K. J. ROBERTSON;LINDA A. LAWTON;BENJAMIN J. P. A. CORNISH,PETER K. J. ROBERTSON,TRUE,1999/10/1,3,7,544,551,1088-4246;1099-1409,"<jats:p> While investigating the destruction of the cyanobacterial hepatotoxin microcystin-LR in the presence of phycocyanin pigment via semiconductor photocatalysis, it became apparent that the pigment was catalysing the toxin decomposition. The mechanism of this process in terms of phycocyanin acting as a photo-oxygenation sensitizer via singlet oxygen and superoxide attack is explored. The absorption and fluorescence spectra of phycocyanin have been obtained and data on the properties of the excited state calculated. The established photo-oxygenation sensitizer rose bengal was also used as a catalyst for the photolytic decomposition of microcystin-LR to help elucidate the decomposition mechanism. </jats:p>",Chemistry,Journal of Porphyrins and Phthalocyanines,Crossref;corpus;unpaywall;openalex;scimag,43,25,FALSE,,closed,��ѧ����ѧ��,"{'org_name': '�޲��ظ�Ǵ�ѧ', 'org_id': '3c60ef93b6953c4ac92784707c1c7466'}","{'id': 'j_9839641ef1eb6d19bfca03547c6cad41', 'zh_title': 'Degradation and detoxification of microcystin-LR in drinking water by sequential use of UV and ozone', 'authors': 'Xiaowei Liu;Zhonglin Chen;Nan Zhou;Jimin Shen;Miaomiao Ye', 'journal': 'Journal of Environmental Sciences-China', 'year': '2010'};{'id': 'j_646d86ba69ca9a4e32de27ec00ed1c3e', 'zh_title': 'Removal of microorganisms and their chemical metabolites from water using semiconductor photocatalysis', 'authors': 'Peter K.J. Robertson;Jeanette M.C. Robertson;Detlef W. 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+j_ac4e7832dbc427afe45ff9614944eb5d,10.1002/(sici)1099-1409(199908/10)3:6/7<592::aid-jpp180>3.0.co;2-g,"Catalysis and Photocatalysis by Phthalocyanines for Technology, Ecology and Medicine",1999,OLEG L. KALIYA;EVGENY A. LUKYANETS;GEORGY N. VOROZHTSOV,OLEG L. KALIYA,TRUE,1999/10/1,3,7,592,610,1088-4246;1099-1409,<jats:p> This is a review of the recent studies done by the authors in the area of catalysis and photocatalysis by phthalocyanines and related compounds. Several examples of catalytic processes are given. Special attention is paid to the design of new types of photocatalytic systems for photodynamic therapy of cancer and to the development of novel catalytic methods of cancer treatment. </jats:p>,Chemistry,Journal of Porphyrins and Phthalocyanines,Crossref;corpus;unpaywall;openalex;scimag,73,25,FALSE,,closed,��ѧ����ѧ��,"{'org_name': 'Organic Intermediates and Dyes Institute, B.Sadovaya 1/4, 103787 Moscow, Russia', 'org_id': '88700a292944cb6776eee77d34c31f77'}","{'id': 'j_091dd76927e067ae1504b9739faec50a', 'zh_title': 'Metal Nanoparticles in Pharma || Metal and Metal Oxide Nanoparticles in Photoinactivation of Pathogens', 'authors': 'Rai, Ph.D, Mahendra; Shegokar, Ph.D, Ranjita ', 'year': '2017'};{'id': 'j_fa55e7a83ed304c65ad3e3cbbb2de4de', 'zh_title': 'Synthesis of water-soluble cobalt and zinc phthalocyanines with cationic substituents', 'authors': 'Vladimir Negrimovsky;Konstantin Volkov', 'journal': 'Journal of Porphyrins and Phthalocyanines', 'year': '2013'};{'id': 'j_4a7defa0b196f4b87a381cc46271cf52', 'zh_title': 'Novel photocatalysts containing 2,4,6-triphenylthiapyrylium encapsulated within zeolites. Enhanced photocatalytic activity as compared to the pyrylium analogues', 'authors': 'Mercedes Alvaro;Esther Carbonell;Vicente Forn��s;Hermenegildo Garc��a', 'journal': 'New Journal of Chemistry', 'year': '2004'};{'id': 'j_a74faa4cb1986fba1316db123efa04f7', 'zh_title': 'Highly Selective Mitochondria-Targeting Amphiphilic Silicon(IV) Phthalocyanines with Axially Ligated Rhodamine B for Photodynamic Therapy', 'authors': 'Zhixin Zhao;Pui-Shan Chan;Hongguang Li;Ka-Leung Wong;Ricky Ngok Shun Wong;Nai-Ki Mak;Jie Zhang;Hoi-Lam Tam;Wai-Yeung Wong;Daniel W. J. Kwong;Wai-Kwok Wong', 'journal': 'INORGANIC CHEMISTRY', 'year': '2011'};{'id': 'j_aeec9bbfb8733e05771cfffa012c8dd4', 'zh_title': 'Synthetic pathways to water-soluble phthalocyanines and close analogs', 'authors': 'Fabienne Dumoulin;Mahmut Durmu?;Vefa Ahsen;Tebello Nyokong', 'journal': 'Coordination Chemistry Reviews', 'year': '2010'};{'id': 'j_17fefcaf11d9115c40d657de794efdbe', 'zh_title': 'Adsorption of ammonia on multilayer iron phthalocyanine', 'authors': 'Cristina Isvoranu;Jan Knudsen;Evren Ataman;Karina Schulte;Bin Wang;Marie-Laure Bocquet;Jesper N. Andersen;Joachim Schnadt', 'journal': 'The Journal of Chemical Physics', 'year': '2011'};{'id': 'j_d798e17e11e5c5ea9715dc97ea8257bb', 'zh_title': 'Synthesis of new highly organosoluble metallophthalocyanines with 1,8-dioxo-octahydroxanthene substituents', 'authors': 'Ali Reza Karimi;Fahimeh Bayat', 'journal': 'Tetrahedron Letters', 'year': '2012'};{'id': 'j_92ac5b73f5dcf6f19b84e31c15fb6429', 'zh_title': 'Photoactivity inhibition of zinc phthalocyanine choline derivatives (Cholosens) by sodium alginate', 'authors': 'Vladimir B. Sheinin;Olga M. Kulikova;Irina M. Lipatova;Anna A. Yusova;Oscar I. Koifman', 'journal': 'Dyes and Pigments', 'year': '2018'};{'id': 'j_80540089a02f840212d6bb5b918f79e7', 'zh_title': 'The key role of peripheral substituents in the chemistry of phthalocyanines and their analogs', 'authors': 'Evgeny A. Lukyanets;Victor N. Nemykin', 'journal': 'Journal of Porphyrins and Phthalocyanines', 'year': '2010'};{'id': 'j_796ed2c63f985fa4873601de22727643', 'zh_title': 'Advance in Photosensitizers and Light Delivery for Photodynamic Therapy', 'authors': 'Il Yoon;Jia Zhu Li;Young Key Shim', 'journal': 'Clinical Endoscopy', 'year': '2013'};{'id': 'j_0f63141a60ce1078801130b4b70aabf3', 'zh_title': 'Catalysis of the oxidative chlorination of aromatic compounds with substituted iron phthalocyanines', 'authors': 'T. S. Fedorova;O. L. Kaliya;E. A. Luk��yanets;V. M. Negrimovskii', 'journal': 'Russian Journal of General Chemistry', 'year': '2008'};{'id': 'j_83e30412c9390b5b853896a44113dbbd', 'zh_title': 'Construction of anthraquinone functional zinc phthalocyanine sensor platform for ultra-trace amount of water determination in tetrahydrofuran and N,N-Dimethylformamide', 'authors': 'Mustafa Semih Yildirim;Yusuf Alcay;Ozgur Yavuz;Secil Kirlangic Atasen;Zeliha Mermer;Hulya Aribuga;Ismail Yilmaz', 'journal': 'Analytica chimica acta', 'year': '2022'};{'id': 'j_a7d3298b7e5851388af64d86b8298b22', 'zh_title': 'Synthesis, characterization, aggregation and thermal properties of a novel polymeric metal-free phthalocyanine and its metal complexes', 'authors': 'Ahmet Bilgin;?i?dem Ya?c?;Ufuk Y?ld?z;Ersel ?zkazan?;Erdo?an Tarcan', 'journal': 'Polyhedron', 'year': '2009'};{'id': 'j_b48506d1a53e1227e8bd7f7a3351d553', 'zh_title': 'Hybrid structures of polycationic aluminum phthalocyanines and quantum dots', 'authors': 'E. G. Maksimov;D. A. Gvozdev;M. G. Strakhovskaya;V. Z. Paschenko', 'journal': 'Biochemistry (Moscow)', 'year': '2015'};{'id': 'j_6bcb053b1b995e5c9124b72ccedbab4e', 'zh_title': 'Unusual cis-diprotonated forms and fluorescent aggregates of non-peripherally alkoxy-substituted metallophthalocyanines', 'authors': 'P. Kasprzycki;L. Sobotta;S. Lijewski;M. Wierzchowski;T. Goslinski;J. Mielcarek;C. Radzewicz;P. Fita', 'journal': 'Phys. Chem. Chem. Phys.', 'year': '2017'};{'id': 'j_df9a3b03d3b49b7bdb56c8de777b98c3', 'zh_title': 'Recent advances in round-the-clock photocatalytic system: Mechanisms, characterization techniques and applications', 'authors': 'Tao Cai;Yutang Liu;Longlu Wang;Wanyue Dong;Guangming Zeng', 'journal': 'Journal of Photochemistry and Photobiology C: Photochemistry Reviews', 'year': '2019'};{'id': 'j_0ffaf450eb28f1c98e6d2c35749bd144', 'zh_title': 'Stability, electronic structure, and magnetic moment of vanadium phthalocyanine grafted to the Au(1 1 1) surface', 'authors': 'Manel Mabrouk;Jacek A. Majewski', 'journal': 'Computational and Theoretical Chemistry', 'year': '2021'};{'id': 'j_477112baa3579eec876672920f4ba78c', 'zh_title': 'Catalysis by substituted iron phthalocyanines of crystal violet leucobase oxidation with dioxygen', 'authors': 'Tatiana M. Fedorova;Valentina M. Derkacheva;Eugene A. Lukyanets;Oleg L. Kaliya', 'journal': 'Journal of Porphyrins and Phthalocyanines', 'year': '2014'};{'id': 'j_ef4545231a175861dfdacd6fc53c6e67', 'zh_title': 'Pyridine Adsorption on Single-Layer Iron Phthalocyanine on Au(111)', 'authors': 'Cristina Isvoranu;Bin Wang;Evren Ataman;Karina Schulte;Jan Knudsen;Jesper N. Andersen;Marie-Laure Bocquet;Joachim Schnadt', 'journal': 'The Journal of Physical Chemistry C', 'year': '2011'};{'id': 'j_3ed88e865f14562a4e422a94c4474690', 'zh_title': 'Chromenone 12-crown-4 substituted zinc phthalocyanine complexes: Investigation of spectral, photophysical and photochemical properties', 'authors': 'Aliye Asl? 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Petek ?akar;Canan Uslan;B. ?ebnem Sesalan;Ahmet G��l', 'journal': 'The Lancet', 'year': '2011'};{'id': 'j_2e37398c1036e858d5a0abff1822bf75', 'zh_title': 'Photoelectrocatalytic degradation of blistering agent sulfur mustard to non-blistering substances using pPy/NiOBPC nanocomposite', 'authors': 'Pushpendra K. Sharma;Garima Gupta;Anil K. Nigam;Pratibha Pandey;Mannan Boopathi;Kumaran Ganesan;Beer Singh', 'journal': 'Journal of Molecular Catalysis A: Chemical', 'year': '2013'};{'id': 'j_af342fcecadc2b72868c937181fcf30f', 'zh_title': 'Role of electrostatics in the binding of charged metallophthalocyanines to neutral and charged phospholipid membranes', 'authors': 'A.A. Pashkovskaya;V.E. Maizlish;G.P. Shaposhnikov;E.A. Kotova;Y.N. Antonenko', 'journal': 'Biochimica et Biophysica Acta', 'year': '2008'};{'id': 'j_a41edc64fc3f150bb7ca876bde1cfeee', 'zh_title': '��Naked�� gold nanoparticles supported on HOPG: melanin functionalization and catalytic activity', 'authors': 'A. Gonz��lez Orive;D. 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+j_a219c2463851c58a08024d40131dbc4b,10.1002/(sici)1099-1409(200001/02)4:1<31::aid-jpp182>3.0.co;2-8,Electrocatalytic proton reduction by zinc phthalocyanine in nafion and poly(4-vinylpyridine-co-styrene) matrices,2000,FENG ZHAO;JIAN ZHANG;DIETER W?HRLE;MASAO KANEKO,FENG ZHAO,TRUE,2000/1/1,4,1,31,36,1088-4246;1099-1409,"<jats:p> Electrochemical proton reduction was catalysed by zinc phthalocyanine ( ZnPc ) incorporated in a Nafion or poly(4-vinylpyridine-co-styrene) (P(VP-St)) film coated on a graphite electrode. The turnover number (TN) of the complex to catalyse H <jats:sub>2</jats:sub> evolution was 10<jats:sup>4</jats:sup> h<jats:sup>-1</jats:sup>. The TN of Nafion ZnPc ] was about two times higher than that of P(VP-St)[ ZnPc ]. The difference was ascribed to the electron propagation in the film influenced by the interaction of the complex with the matrix and by the counterion migration between the matrix and the electrolyte solution. The electron transfer in the reduction of the ZnPc complex in the matrix was concluded to be the rate-determining step for the proton reduction. The TN was independent of the ZnPc concentration in the matrix at low concentrations although H <jats:sub>2</jats:sub> formation was regarded to be a bimolecular reaction process, which was explained by the electron transfer through the matrix via a monomolecular diffusion which was the rate-determining step. </jats:p>",Chemistry,Journal of Porphyrins and Phthalocyanines,Crossref;corpus;unpaywall;openalex;scimag,13,24,FALSE,,closed,��ѧ����ѧ��,"{'org_name': '�ijǴ�W', 'org_id': 'f9635b3f4e4652fdcc118600ae2d8103'}","{'id': 'j_3fc257ba1d1d56491c4daa6e4f64f76b', 'zh_title': 'Electrocatalytic pathways towards sustainable fuel production from water and CO2', 'authors': 'Jane L. Inglis;Brian J. MacLean;Mary T. Pryce;Johannes G. 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+j_d7a4cdabc751cef725f8e11327894aee,10.1002/(sici)1099-1409(200003)4:2<175::aid-jpp166>3.0.co;2-t,Bactericidal action of cobalt(II) phthalocyanine-modified electrode,2000,HIROSHI UKAI;TAKASHI ICHINOHE;SATORU MATSUMOTO;MUTSUMI KIMURA;TOSHIKI KOYAMA;KENJI HANABUSA;AKIRA HACHIMORI;HIROFUSA SHIRAI,HIROSHI UKAI,TRUE,2000/3/1,4,2,175,178,1088-4246;1099-1409,"<jats:p> The bactericidal activity of an electrochemical system with a cobalt(II) phthalocyanine-modified Ti electrode was studied. In the presence of NaBO <jats:sub>3</jats:sub>, strong bactericidal activity was observed against E. coli with electroreduction for 30 min. If an unmodified Ti electrode was used, no bactericidal activity was observed in the electrochemical system. By the ESR spin-trapping method using 5,5-dimethyl-1-pyrroline-N-oxide as the spin-trapping reagent, the radical species generated in the electrocatalytic reaction was found to be hydroxyl radical, which acts as the potent cytocidal species in the system. </jats:p>",Chemistry,Journal of Porphyrins and Phthalocyanines,Crossref;corpus;unpaywall;openalex;scimag,3,12,FALSE,,closed,��ѧ����ѧ��,"{'org_name': '���ݴ�W', 'org_id': 'cc1caee03cd77753d957436e73b886f6'};{'org_name': 'Tomey Technology Corporation, Nishi�\ku, Nagoya, Aichi 451�\0051, Japan', 'org_id': 'a3b938049e160a90d8569f3b4dc665d3'}","{'id': 'j_8a2f4a0cf9efe3231e3ab363a9bb9387', 'zh_title': 'Oktakarboksyftalocyjaniny �C zwi?zki o interesuj?cych w?a?ciwo?ciach spektralnych, fotochemicznych i katalitycznych', 'authors': 'J.  Nackiewicz;J.  Suchan;M.  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Catalase-like activity of water-soluble polymer containing a phthalocyanine-manganese complex', 'authors': 'Mutsumi Kimura;Tadayoshi Nishigaki;Toshiki Koyama;Kenji Hanabusa;Hirofusa Shirai', 'journal': 'Macromolecular Chemistry and Physics', 'year': '1994'};{'id': 'j_4d8628ac211fe192819a0e595166b714', 'zh_title': 'Spin Trapping: ESR parameters of spin adducts 1474 1528V', 'authors': 'Garry R. Buettner', 'journal': 'Free Radical Biology and Medicine', 'year': '1987'};{'id': 'j_b3ee74cb616f463da229507feb5f12c6', 'zh_title': 'Functional metallomacrocycle derivatives and their polymers. 31. Preparation and electrochromic properties of novel cobaltophathalocyanine thin films on electrodes', 'authors': 'Takahisa Fukuzawa;Toshiki Koyama;Gerhard Schneider;Kenji Hanabusa;Hirofusa Shirai', 'journal': 'Journal of Inorganic and Organometallic Polymers', 'year': '1994'};{'id': 'j_edce4772dff5ba594d72199361ff227b', 'zh_title': 'Functional metallomacrocycles and their polymers, 26. Synthesis of 2-acryloylamino-9,16,23-tri-tert-butylphthalocyanine and autoxidation of thiol with water-soluble polymers containing cobalt(II) phthalocyaninate complex', 'authors': 'Mutsumi Kimura;Tomohiro Dakeno;Etsuko Adachi;Toshiki Koyama;Kenji Hanabusa;Hirofusa Shirai', 'journal': 'Macromolecular Chemistry and Physics', 'year': '1994'};{'id': 'j_f2fb3cc68681760c8c5eda2121d3639e', 'zh_title': 'Functional metal-porphyrazine derivatives and their polymers, 4. Synthesis of poly(styrene) bonded Fe(III)- as well as Co(II)-4,4��,4��,4���-tetracarboxyphthalocyanine and their catalase-like activity', 'authors': 'Hirofusa Shirai; Akio Maruyama; Kesayoshi Kobayashi; Nobumasa Hojo; Kunio Urushido', 'journal': 'Macromolecular Chemistry and Physics', 'year': '1980'};{'id': 'j_a6d544eaad9c8cd4df8aa9c75feabee4', 'zh_title': 'Evaluation of iron binding and peroxide-mediated toxicity in rat hepatocytes', 'authors': 'Howard G. Shertzer;Gerard L. Bannenberg;Peter Mold��us', 'journal': 'Biochemical pharmacology', 'year': '1992'};{'id': 'j_3179403fa1e1b12ba314a30dafede72b', 'zh_title': 'Generation of Free Radicals from Hydrogen Peroxide and Lipid Hydroperoxides in the Presence of Cr(III)', 'authors': 'X.L. Shi;N.S. Dalal;K.S. Kasprzak', 'journal': 'Archives of biochemistry and biophysics', 'year': '1993'};{'id': 'j_afe9b55447df65b515ad584bed3a9d46', 'zh_title': 'Functional Metallomacrocycles and Their Polymers XXXIII. 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+j_dd10c09748565609cef8e19f33d6460e,10.1002/(sici)1099-1581(199708)8:8<517::aid-pat680>3.0.co;2-9,Electrocatalytic synthesis of polyaniline on non-noble metal electrodes,1997,Valentina V. Abalyaeva;Oleg N. Efimov,Valentina V. Abalyaeva,TRUE,1997/8/1,8,8,517,524,1042-7147;1099-1581,"Electrochemical synthesis (ES) of polyaniline (PAn) at the surface covered by an oxide film is realized at a significantly higher voltage than is needed for the formation of a nonoveroxidized polymer. The involvement of catalytic amounts of the salts of transition metals in ES of PAn essentially facilitates the process at Ti, Ta, Pb, Al and stainless steel electrodes. IrCI2?6 anion was found to be an effective catalyst. During ES, IrCI2?6 forms a complex with aniline, where IrIY oxidizes aniline to a radical cation. The formation of radical cation is a limiting stage ES PAn. It is realized in a moment in the presence of IrCI2?6, thus providing a significant decrease of the induction period at a potentiostatic synthesis and the lowering of a working potential at a galvanostatic synthesis. It is shown that the composition of the complex includes IrIII and 2 aniline molecules, which form a paramagnetic dimer inside a coordination sphere. ? 1997 John Wiley & Sons, Ltd.",Chemistry,Polymers for Advanced Technologies,Crossref;corpus;unpaywall;openalex;scimag,12,0,FALSE,,closed,�߷��ӿ�ѧ,"{'org_name': 'Institute of Chemical Physics at Chernogolovka RAS, Chernogolovka MD 142432, Russia', 'org_id': 'a660889c8d58c4f7cd3a11221dc7e6c8'}","{'id': 'j_37072e7277904fb9830597f966036879', 'zh_title': 'Inhibition of steel corrosion by polyaniline coatings', 'authors': 'M Kralji?;Z Mandi?;Lj Dui?', 'journal': 'Corrosion Science', 'year': '2003'};{'id': 'j_06cfb38ae7d16763d3c860a4d5a6cd39', 'zh_title': 'Corrosion performance of polypyrrole coating applied to low carbon steel by an electrochemical process', 'authors': 'Jude O. Iroh;Wencheng Su', 'journal': 'Electrochimica Acta', 'year': '2000'};{'id': 'j_658174da96a3267592e99000d6c3764f', 'zh_title': 'Modified Polyaniline-Based Electrode as a Sensor for the Antioxidant Determination', 'authors': 'V. V. Abalyaeva;O. N. Efimov', 'journal': 'Russian Journal of Electrochemistry', 'year': '2005'};{'id': 'j_e46388d029b1e14d19246c242498ae51', 'zh_title': 'Palladized aluminum as a novel substrate for electrosynthesis of polyaniline in sulfuric acid solutions', 'authors': 'M. H. Pournaghi-Azar;Biuck A. Habibi', 'journal': 'Journal of Solid State Electrochemistry', 'year': '2006'};{'id': 'j_34a0e648061df25817daea8f792397bb', 'zh_title': 'Adi??o de plastificante �� polianilina sintetizada quimicamente e avalia??o dos filmes plastificados como prote??o contra a corros?o do a?o AISI 1010', 'authors': 'Fornari  Junior;Celso Carlino Maria', 'year': '2001'};{'id': 'j_c6f2701d1f89e1b34f872b8367ea02d3', 'zh_title': 'Electrosynthesis of a composite based on graphene oxide nanosheets and polyaniline with hexachloroiridate anion', 'authors': 'V. V. Abalyaeva;S. A. Baskakov;N. N. Dremova;O. N. Efimov', 'journal': 'Russian Chemical Bulletin', 'year': '2014'};{'id': 'j_9de5afa78c16c748b5823415747d8030', 'zh_title': 'Electrochemical formation of conducting polymer coating on porous p- and n-silicon substrates', 'authors': 'Valentina V. Abalyaeva;Oleg N. Efimov', 'journal': 'Polymers for Advanced Technologies', 'year': '2000'};{'id': 'j_13c82c1d9bf6bcfbaf1f9f41dae68c92', 'zh_title': 'The effect of ionic and electronic properties of titanium oxide on the electrochemical growth and redox behavior of polyaniline on titanium surfaces', 'authors': 'Kyriaki Saltidou;Eleni Pavlidou;Dimitra Sazou', 'journal': 'Journal of Solid State Electrochemistry', 'year': '2017'};{'id': 'j_79fa354c48e2ccb7d8f80d32372d818b', 'zh_title': 'Electrochemical polymerization of aniline on aluminum electrode from an oxalic acid and H2SO4 solutions', 'authors': 'A. Buyuksagis', 'journal': 'Protection of Metals and Physical Chemistry of Surfaces', 'year': '2009'};{'id': 'j_0fd3184d2b3bdea503df6d4e191c242d', 'zh_title': 'Electrochemical copolymerization and characterization of aniline and isoprene in aqueousp-toluene sulfonic acid solution', 'authors': 'Jude O. Iroh;Ramakrishnan Rajagopalan', 'journal': 'Journal of Applied Polymer Science', 'year': '2002'};{'id': 'j_4546368ea93442184235de718ac65077', 'zh_title': 'Electropolymerization of aniline in acid media on the bare and chemically pre-treated aluminum electrodes', 'authors': 'M.H. Pournaghi-Azar;B. Habibi', 'journal': 'Electrochimica Acta', 'year': '2007'};{'id': 'j_1ac979ad2938bd342b936b90a48a0fee', 'zh_title': 'Combined ultrahigh vacuum-electrochemistry study of aniline oxidation at oxidized polycrystalline nickel', 'authors': 'G. Seshadri;R. M. Sarid;J. A. Kelber', 'journal': 'Surface and Interface Analysis', 'year': '1999'}",{},"{'person_id': '4b46efaee2bb019f427dc5bb97b83369', 'orcid': ' ', 'name': 'V. V. Abalyaeva', 'email': '', 'org_name': 'Institute of Problems of Chemical Physics', 'org_id': 'daf17adfd9bcf2be2b8b12af46ffb1d3', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '8592eed85da7fd69c649cee3bb59c985', 'orcid': ' ', 'name': 'O. N. Efimov', 'email': '', 'org_name': 'Institute of Problems of Chemical Physics', 'org_id': 'daf17adfd9bcf2be2b8b12af46ffb1d3', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_5942b8a86278a3bbb568388229e9900e,10.1002/(sici)1099-1581(199809)9:9<559::aid-pat818>3.0.co;2-1,Highly active electrocatalysis by cobalt tetraphenylporphyrin incorporated in a Nafion membrane for proton reduction,1998,Toshiyuki Abe;Fumio Taguchi;Hiroshi Imaya;Feng Zhao;Jian Zhang;Masao Kaneko,Toshiyuki Abe,TRUE,1998/9/1,9,9,559,562,1042-7147;1099-1581,"Electrocatalytic H+ reduction was studied with cobalt tetraphenylporphyrin (CoTPP) incorporated in a Nafion membrane coated on a Pt electrode (denoted as Pt/NfCoTPP]). It was found that Pt/Nf[CoTPP] shows an efficient catalytic activity to produce H2 around the theoretical H+/H2 redox potential (?0.25?V v. Ag/AgCl in a pH 1.01 aqueous solution), and that its catalytic activity is remarkably higher than a neat CoTPP film and a conventional Pt catalyst. The amount of the H2 produced decreased with increasing CoTPP concentration in the membrane ([CoTPP]Nf]). The ratio of electroactive CoIITPP was independent of its concentration, showing that the present electron transfer process takes place via physical diffusion of the molecule. The intrinsic turnover number (TNint) of the CoTPP to produce H2, based on the electroactive amounts of the CoTPP, decreased with increasing [CoTPP]Nf. The catalysis was discussed in terms of the characteristic of the Nafion membrane. ? 1998 John Wiley & Sons, Ltd.",Chemistry,Polymers for Advanced Technologies,Crossref;corpus;unpaywall;openalex;scimag,54,0,FALSE,,closed,�߷��ӿ�ѧ,"{'org_name': '�ijǴ�W', 'org_id': 'f9635b3f4e4652fdcc118600ae2d8103'}","{'id': 'j_26338b56f5a249c8e7815297e40a0095', 'zh_title': 'Electro- and Solar-Driven Fuel Synthesis with First Row Transition Metal Complexes', 'authors': 'Kristian E. Dalle;Julien Warnan;Jane J. Leung;Bertrand Reuillard;Isabell S. 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The product quantum yield decreases linearly with increasing C�CH bond dissociation energy calculated by ab initio methods.",Chemistry,Chemistry - A European Journal,Crossref;corpus;unpaywall;openalex;scimag,47,6,FALSE,,closed,��ѧ����ѧ��,{},"{'id': 'j_611b142e70b09bd4596d73b0ebb15a4a', 'zh_title': 'Synthesis of microcapsules with polystyrene/ZnO hybrid shell by Pickering emulsion polymerization', 'authors': 'Wenbao Chen;Xuyan Liu;Yangshuo Liu;Hyung-Il Kim', 'journal': 'Colloid and Polymer Science', 'year': '2010'};{'id': 'j_cb2ee79aad3ec95236d9b28451f62bde', 'zh_title': 'IEEE 2019 International Conference on Electronics Packaging (ICEP) - Niigata, Japan (2019.4.17-2019.4.20)] 2019 International Conference on Electronics Packaging (ICEP) - Electrodeposition of Cu doped ZnS and evaluation of its photocatalytic property', 'authors': 'Matsuda, Naohiro; Okamoto, Naoki; Saito, Takeyasu ', 'journal': '2019 International Conference on Electronics Packaging (ICEP)', 'year': '2019'};{'id': 'j_3ad2ed0c3b70adb59e89cff18c3bc35d', 'zh_title': 'Heterogeneous Photoredox Catalysis: Reactions, Materials, and Reaction Engineering', 'authors': 'Jonathan Z. 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+j_561becc7a801c9deb7bacc900451e00e,10.1002/(sici)1521-3773(19980619)37:11<1556::aid-anie1556>3.0.co;2-w,"A Photoluminescent Copper(I) Complex with an Exceptionally High CuII/CuI Redox Potential: [Cu(bfp)2]+ (bfp=2,9-bis(trifluoromethyl)-1,10-phenanthroline)",1998,Mark T. Miller;Peter K. Gantzel;Timothy B. Karpishin,Mark T. Miller,TRUE,1998/6/19,37,11,1556,1558,1433-7851;1521-3773,Unprecedented stabilization of the copper(I) oxidation state is demonstrated for the complex cation Cu(bfp)2 ]+ (1) due to the steric and electronic effects of the CF3 groups (E1/2 (CuII /CuI )=+1.55 V vs. SCE). The redox existence range of the copper(I) species is remarkably high at 2.77 V. It is emissive in solution at room temperature and shows great potential as a photocatalyst; in the excited state it is a very potent photooxidant.,Chemistry;Medicine,Angewandte Chemie International Edition,Crossref;corpus;unpaywall;pubmed;openalex;scimag,58,0,FALSE,PM,closed,��ѧ����ѧ��,"{'org_name': ' University of California- San Diego;', 'org_id': '6877524728b546a5a1076cd61016fa1a'}","{'id': 'j_d48036ae1d9abd036d9cbee126c99238', 'zh_title': 'Topics in Current Chemistry] Photochemistry and Photophysics of Coordination Compounds I Volume 280 || Photochemistry and Photophysics of Coordination Compounds: Copper', 'authors': 'Balzani, Vincenzo; Campagna, Sebastiano ', 'year': '2007'};{'id': 'j_6893e1fbf46cc04286fbb099f9c9d52e', 'zh_title': 'Synthesis, characterization, spectroscopic and electrochemical properties of new mono- and binuclear copper(I) complexes with substituted 2,2��-bipyridine', 'authors': 'Qian-Yong Cao;Xin Gan;Wen-Fu Fu', 'journal': 'Chinese Journal of Chemistry', 'year': '2010'};{'id': 'j_ab80fcdcc210b78b71f7268ead20c407', 'zh_title': 'Paradoxical design of a serendipitous pyrazolate bridging mode: a pragmatic strategy for inducing ineluctable ferromagnetic coupling', 'authors': 'Manasi Roy;Arun K. 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Jones;Matthias Tamm', 'journal': 'Angewandte Chemie', 'year': '2012'};{'id': 'j_1b2ce27a5582c692cee2520a71937eb0', 'zh_title': 'Comprehensive Heterocyclic Chemistry III || Four-membered Rings with One Boron or Other Atom', 'authors': 'Morita, M.', 'year': '2008'};{'id': 'j_ea10915ce6f4570345d9677b2a22f4d7', 'zh_title': 'Metallinsertion in C-C-Bindungen in L?sung', 'authors': 'Boris Rybtchinski;David Milstein', 'journal': 'Angewandte Chemie', 'year': '1999'};{'id': 'j_22557e777dd64d5ac01faf4340282a1f', 'zh_title': 'Binuclear organometallic compounds containing planar tetra co-ordinated carbon atoms: theoretical study on geometrical and bonding patterns', 'authors': 'E.D. Jemmis *;P. Parameswaran;A.K. 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+j_826e28365b369e7cb3bd942ee657c7ad,10.1002/(sici)1521-3773(19981116)37:21<3034::aid-anie3034>3.0.co;2-2,"Modified, Amorphous Titania��A Hybrid Semiconductor for Detoxification and Current Generation by Visible Light",1998,Horst Kisch;Ling Zang;Christian Lange;Wilhelm F. Maier;Christina Antonius;Dieter Meissner,Horst Kisch,TRUE,1998/11/16,37,21,3034,3036,1433-7851;1521-3773,"Amorphous, microporous TiO2 hybrid semiconductors modified with transition metals induce generation of a photocurrent and photocatalytic degradation of the water contaminant 4-chlorophenol through photoinduced charge separation (the postulated mechanism is shown in the picture, Ar=4-ClC6 H4 ). In contrast to the previously known crystalline titania photocatalysts, which are active only when excited with UV light, the amorphous semiconductors modified with platinum, rhodium, and gold chloride enable both processes also with visible light.",Materials Science;Medicine,Angewandte Chemie International Edition,Crossref;corpus;unpaywall;pubmed;openalex;scimag,185,0,FALSE,PM,closed,��ѧ����ѧ��,"{'org_name': 'Forschungszentrum Jlich', 'org_id': '2f0fd0f8d898ce1f76b6a82a0e23cde0'}",{},{},"{'person_id': '4ea2b302111a4e8be442f40dbb5631b0', 'orcid': 'https://orcid.org/0000-0003-1042-7967', 'name': 'Horst Kisch', 'email': '', 'org_name': 'University of Erlangen-Nuremberg', 'org_id': '5757cf66915ac1d98cd4afe1023fcfd4', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '58d4148d24b431f90d2bd7791eb6acc7', 'orcid': 'https://orcid.org/0000-0003-4077-3705', 'name': 'Dieter Meissner', 'email': '', 'org_name': 'Forschungszentrum J��lich', 'org_id': ' ', 'author_num': 6, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'edd5e3da4ac8927b2d5068db9f490af4', 'orcid': ' ', 'name': 'Wilhelm F. Maier', 'email': '', 'org_name': 'Max Planck Institute for Coal Research', 'org_id': '3e231ddde1f9035570041233b97017a4', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '023ab8da09e88c5bc08e6c46f6504ad2', 'orcid': 'https://orcid.org/0000-0002-4299-0992', 'name': 'Ling Zang', 'email': '', 'org_name': 'University of Erlangen-Nuremberg', 'org_id': '5757cf66915ac1d98cd4afe1023fcfd4', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'd20077c0c02ccf2d0dbfbfcded90dd82', 'orcid': ' ', 'name': 'Christian Lange', 'email': '', 'org_name': 'Max Planck Institute for Coal Research', 'org_id': '3e231ddde1f9035570041233b97017a4', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '0b90a2f093c7b34dbb755100fce9fba7', 'orcid': ' ', 'name': 'Christina Antonius', 'email': '', 'org_name': 'Forschungszentrum J��lich', 'org_id': ' ', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_c0f46df1558677577c531acbd9cdbc35,10.1002/(sici)1521-3773(19981217)37:23<3253::aid-anie3253>3.0.co;2-p,Surface Reconstitution of a De Novo Synthesized Hemoprotein for Bioelectronic Applications,1998,Eugenii Katz;Vered Heleg-Shabtai;Itamar Willner;Harald K. Rau;Wolfgang Haehnel,Eugenii Katz,TRUE,1998/12/17,37,23,3253,3256,1433-7851;1521-3773,A molecular rectifier and a bioelectrocatalytic assembly for the reduction of NO3- is provided by reconstitution of a de novo protein with two FeIII -protoporphyrin IX units. The function of the de novo protein can be tuned and tailored within the synthetic protocol.,Chemistry;Medicine,Angewandte Chemie International Edition,Crossref;corpus;unpaywall;pubmed;openalex;scimag,39,0,FALSE,PM,closed,��ѧ����ѧ��,"{'org_name': '��������ѧ', 'org_id': '08fa337d13c97ec9741a8aa36ed738cb'}","{'id': 'j_3f66b5bde9b52ec407a588419ffd0480', 'zh_title': 'Electrochemical and Spectroscopic Investigations of Immobilized De Novo Designed Heme Proteins on Metal Electrodes', 'authors': 'Tim Albrecht;Wenwu Li;Jens Ulstrup;Wolfgang Haehnel;Peter Hildebrandt', 'journal': 'Chemphyschem : a European journal of chemical physics and physical chemistry', 'year': '2005'};{'id': 'j_5d684fcb940af7f993f3928520c194cf', 'zh_title': 'Oriented immobilisation of engineered single-chain antibodies to develop biosensors for virus detection', 'authors': 'L. Torrance;A. Ziegler;H. Pittman;M. Paterson;R. Toth;I. 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G��miz-Hern��ndez;Gernot Kieseritzky;Artur S. Galstyan;Ozgur Demir-Kavuk;Ernst-Walter Knapp', 'journal': 'Chemphyschem : a European journal of chemical physics and physical chemistry', 'year': '2010'};{'id': 'j_b37f388432566b14a01713ffe83e5256', 'zh_title': 'Chapter 5 �C MOLECULAR ASSEMBLIES OF POLY(L-GLUTAMIC ACID)-BASED AMPHIPHILES AND THEIR SURFACE FUNCTIONS', 'authors': 'Nobuyuki  Higashi;Tomoyuki  Koga;Masa-aki  Morikawa;Masazo  Niwa', 'year': '2001'};{'id': 'j_0e5e7378174def8c497d0c7d3a34cf53', 'zh_title': 'Small electron-transfer proteins as mediators in enzymatic electrochemical biosensors', 'authors': 'C��lia M. Silveira;M. Gabriela Almeida', 'journal': 'Analytical and Bioanalytical Chemistry', 'year': '2013'};{'id': 'j_67e2660f62e95936c39c801501826b18', 'zh_title': 'Reconstituted Redox Proteins On Surfaces For Bioelectronic Applications', 'authors': 'Bilha  Willner;Itamar  Willner', 'year': '2008'};{'id': 'j_ce3b81f04d4b74d89c320d49cc13a651', 'zh_title': 'Non-covalent binding of a transmetalated Ni-bacteriochlorophyllide a to four-helix bundle proteins obtained by orthogonal combinatorial synthesis', 'authors': 'H  Snigula;Bernhard H. Monien;Friedel  Drepper;N de Jonge;Wolfgang  Haehnel', 'journal': 'Science Access', 'year': '2001'};{'id': 'j_9d5386c27b00a7a4fdaa31486a9d66e2', 'zh_title': 'Unsymmetrical Spiroalkanedithiols Having Mixed Fluorinated and Alkyl Tailgroups of Varying Length: Film Structure and Interfacial Properties', 'authors': 'Pawilai Chinwangso;Lydia St. Hill;Maria Marquez;T. Lee', 'journal': 'Molecules', 'year': '2018'};{'id': 'j_4a6138548568bb98858def8e57362a00', 'zh_title': 'Hexagonally Ordered Arrays of ��-Helical Bundles Formed from Peptide-Dendron Hybrids', 'authors': 'Deborah A. Barkley;Yekaterina Rokhlenko;Jeannette E. Marine;Rachelle David;Dipankar Sahoo;Matthew D. Watson;Tadanori Koga;Chinedum O. Osuji;Jonathan G. Rudick', 'journal': 'Journal of the American Chemical Society', 'year': '2017'};{'id': 'j_52ebd273a747f355ae052bd54859f786', 'zh_title': 'A non-compartmentalized glucose�OO2 biofuel cell by bioengineered electrode surfaces', 'authors': 'Eugenii Katz;Itamar Willner;Alexander B Kotlyar', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1999'};{'id': 'j_312e48ea5f907688d1c553b995873703', 'zh_title': 'M?ssbauer and EPR study of a cytochrome b modelDedicated to Professor F. D?rr on the occasion of his 80th birthday.', 'authors': 'Olga Iakovleva;Michael Reiner;Harald Rau;Wolfgang Haehnel;Fritz Parak', 'journal': 'Physical Chemistry Chemical Physics', 'year': '2002'};{'id': 'j_4fbbf4ac96d21a531e0de883dd6e47cc', 'zh_title': 'Photochemical Imprint of Molecular Recognition Sites in Two-Dimensional Monolayers Assembled on Au Electrodes:\u2009 Effects of the Monolayer Structures on the Binding Affinities and Association Kinetics to the Imprinted Interfaces1', 'authors': 'Michal Lahav;Eugenii Katz;Itamar Willner', 'journal': 'Langmuir', 'year': '2001'};{'id': 'j_3e28985f0a70d2a1d524f54346de37b7', 'zh_title': 'Fabrication of a switchable nano-surface composed of acidic and basic block-polypeptides', 'authors': 'Tomoyuki Koga;Ayae Nagaoka;Nobuyuki Higashi', 'journal': 'Colloids and Surfaces A: Physicochemical and Engineering Aspects', 'year': '2006'};{'id': 'j_aeffab5413f7fa122e38baee62e14253', 'zh_title': 'Controllable Orientation of Helical Poly(L-glutamic acid) Rods through Macrodipole Interaction on Gold Surfaces and Vectorial Electron Transfer', 'authors': 'Masazo Niwa;Masa-aki Morikawa;Nobuyuki Higashi', 'journal': 'Angewandte Chemie', 'year': '2000'};{'id': 'j_ac6a770c6cee47488af5043ead6b8a5c', 'zh_title': 'Versatile Three-Dimensional Porous Cu@Cu2\nO Aerogel Networks as Electrocatalysts and Mimicking Peroxidases', 'authors': 'Pinghua Ling;Qiang Zhang;Tingting Cao;Feng Gao', 'journal': 'ANGEWANDTE CHEMIE-INTERNATIONAL EDITION', 'year': '2018'};{'id': 'j_39dc751c92c53c78e407433b4c319304', 'zh_title': 'Enzyme Immobilization and Mediation with Osmium Redox Polymers.', 'authors': 'Gaige R VandeZande;Jasmine M Olvany;Julia L Rutherford;Michelle  Rasmussen', 'journal': 'Methods in molecular biology', 'year': '2017'}",{},"{'person_id': '517db3cec9bfc9492ed24ae645303963', 'orcid': 'https://orcid.org/0000-0001-9710-9077', 'name': 'Itamar Willner', 'email': '', 'org_name': 'Hebrew University of Jerusalem', 'org_id': '3fd43f2fff6d5183707de3ea5e2d316a', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'b0e2bb87093635efbf931e37d64aa49a', 'orcid': 'https://orcid.org/0000-0003-2395-8804', 'name': 'Vered Heleg-Shabtai', 'email': '', 'org_name': 'Hebrew University of Jerusalem', 'org_id': '3fd43f2fff6d5183707de3ea5e2d316a', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '1d1234ff339909275b0de18a21f9dfb2', 'orcid': ' ', 'name': 'Harald K. Rau', 'email': '', 'org_name': 'University of Freiburg', 'org_id': 'f68d71cd5ad7aa599f45e2fd5840140d', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'd3a2727c55fde2c956cf5bd1025f6c4e', 'orcid': ' ', 'name': 'Wolfgang Haehnel', 'email': '', 'org_name': 'University of Freiburg', 'org_id': 'f68d71cd5ad7aa599f45e2fd5840140d', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '33835e7b10a98d3b662dd8cbfcead6d4', 'orcid': ' ', 'name': 'Eugenii Katz', 'email': '', 'org_name': 'Hebrew University of Jerusalem', 'org_id': '3fd43f2fff6d5183707de3ea5e2d316a', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_ec97965081a1a7695dcb6d83899ffb25,10.1002/(sici)1521-3773(19990315)38:6<804::aid-anie804>3.0.co;2-6,Coordinative Approach to Mediated Electron Transfer: Ruthenium Complexed to Native Glucose Oxidase,1999,Ekaterina S. Ryabova;Vasily N. Goral;Elisabeth Cs?regi;Bo Mattiasson;Alexander D. Ryabov,Ekaterina S. Ryabova,TRUE,1999/3/15,38,6,804,807,1433-7851;1521-3773,"Catalytically and electrocatalytically very active and stable are the complexes Ru(LL)-GO, which are extremely readily accessible from glucose oxidase (GO) and the RuII complexes cis-Ru(LL)2 Cl2 ] (LL=bpy, phen). These provide an unprecedentedly high amplification coefficient I/Io (see cyclic voltammograms) even at high scan rates and, correspondingly, very high rates of intramolecular electron transfer.",Chemistry;Medicine,Angewandte Chemie International Edition,Crossref;corpus;unpaywall;pubmed;openalex;scimag,34,0,FALSE,PM,closed,��ѧ����ѧ��,"{'org_name': '¡�´�ѧ', 'org_id': '95179179005f3fb97ecc0a2cebaba91e'}","{'id': 'j_0169391807b88443af0bd53c03ab71a5', 'zh_title': 'Bypassing the Resistance Mechanisms of the Tumor Ecosystem by Targeting the Endoplasmic Reticulum Stress Pathway Using Ruthenium- and Osmium-Based Organometallic Compounds: An Exciting Long-Term Collaboration with Dr. Michel Pfeffer', 'authors': 'Christian Gaiddon;Isabelle Gross;Xiangjun Meng;Marjorie Sidhoum;Georg Mellitzer;Benoit Romain;Jean-Batiste Delhorme;A?na Venkatasamy;Alain C. Jung;Michel Pfeffer', 'journal': 'Molecules', 'year': '2021'};{'id': 'j_745f4a6aa933a61a339a23d6206b4777', 'zh_title': 'Glucose-Oxidase Label-Based Redox Cycling for an Incubation Period-Free Electrochemical Immunosensor', 'authors': 'Amardeep Singh;Seonhwa Park;Haesik Yang', 'journal': 'Analytical Chemistry', 'year': '2013'};{'id': 'j_72e18487cf740fb95c662fc6b276f438', 'zh_title': 'Advances in Inorganic Chemistry]  Volume 55 || TRANSITION METAL CHEMISTRY OF GLUCOSE OXIDASE, HORSERADISH PEROXIDASE, AND RELATED ENZYMES', 'authors': 'RYABOV, ALEXANDER D.', 'journal': 'Advances in Inorganic Chemistry', 'year': '2004'};{'id': 'j_29d2e1f705d92d140f5611036b187768', 'zh_title': 'Impact of cyclometalated ruthenium(II) complexes on lactate dehydrogenase activity and cytotoxicity in gastric and colon cancer cells', 'authors': 'Hugo Rico Bautista;Rafael Omar Saavedra D��az;Longzhu Q. Shen;Christophe Orvain;Christian Gaiddon;Ronan Le Lagadec;Alexander D. Ryabov', 'journal': 'Journal of Inorganic Biochemistry', 'year': '2016'};{'id': 'j_18eb6c7a0e6a1c96c2a3c662656cb7d4', 'zh_title': 'Redox modification of proteins using sequential-parallel electrochemistry in microtiter plates.', 'authors': 'S  Reiter;K  Eckhard;A  Bl?chl;W  Schuhmann', 'journal': 'The Analyst', 'year': '2001'};{'id': 'j_84c11fda9877edddab4255a5734778b5', 'zh_title': 'Ionic Topochemical Tuned Biosensor Interface', 'authors': 'Birgit Nagel;Nenad Gajovic-Eichelmann;Frieder W. Scheller;Martin Katterle', 'journal': 'Langmuir', 'year': '2010'};{'id': 'j_f866f5bbe8036d39a55f4be6b712f7f7', 'zh_title': 'Comparative Kinetic Study of D-Glucose Oxidation by Ruthenium(III) Compounds Catalyzed by FAD-Dependent Glucose Oxidase and PQQ-Dependent Glucose Dehydrogenase', 'authors': 'E. V. Ivanova; A. Yu. Ershov; V. Laurinavi?ius; R. Meskus; A. D. Ryabov', 'journal': 'Biochemistry (Moscow)', 'year': '2003'};{'id': 'j_7e52423d256ba2de4940b40099bb2095', 'zh_title': 'Development of a novel enzyme-redox-mediator system based on a fungal laccase and ruthenium complexes', 'authors': 'T. V. Fedorova;A. S. Vilesov;S. A. Kurzeev;E. V. Stepanova;E. O. Landesman;O. V. Koroleva', 'journal': 'Applied Biochemistry and Microbiology', 'year': '2006'};{'id': 'j_13d7bd5ed56e94068dba1697a3a38f76', 'zh_title': 'Effect of some redox mediators on FAD fluorescence of glucose oxidase from Penicillium adametzii LF F-2044.1', 'authors': 'Raisa Mikhailova;Tatiana Semashko;Olga Demeshko;Almira Ramanaviciene;Arunas Ramanavicius', 'journal': 'Enzyme and Microbial Technology', 'year': '2015'};{'id': 'j_0e3b309db1da9f3aea8b10ee9b453d61', 'zh_title': 'Encyclopedia of Electrochemistry (Online) || Mediated Electron-transfer between Redox-enzymes and Electrode Supports', 'authors': 'Bard, Allen J.', 'year': '2007'};{'id': 'j_984c52a83bf4d4d23f700024ce96d0d4', 'zh_title': 'Dipolar ruthenium-ammine complexes with 4,4��-bipyridinium ions accessible for both amperometric and colorimetric glucose sensors', 'authors': 'Yasuo Nakabayashi;Yuri Hirosaki;Osamu Yamauchi', 'journal': 'Inorganic Chemistry Communications', 'year': '2006'};{'id': 'j_b2c5ff8883b8810a5eab48f19601c0e8', 'zh_title': 'The 1,6,7,12-Tetraazaperylene Bridging Ligand as an Electron Reservoir and Its Disulfonato Derivative as Redox Mediator in an Enzyme-Electrode Process', 'authors': 'Thomas Brietzke;Thomas Dietz;Alexandra Kelling;Uwe Schilde;Julianae Bois;Harald Kelm;Manuel Reh;Markus Schmitz;Thomas K?rzd?rfer;Silke Leimk��hler;Ulla Wollenberger;Hans-J?rg Kr��ger;Hans-J��rgen Holdt', 'journal': 'Chemistry', 'year': '2017'};{'id': 'j_9777e36c2fe4118ca239181bda0d1a1b', 'zh_title': 'Enzymatic methods for choline-containing water soluble phospholipids based on fluorescence of choline oxidase: Application to lyso-PAF', 'authors': 'Isabel Sanz-Vicente;Andr��s Dom��nguez;Carlos Ferr��ndez;Javier Galb��n', 'journal': 'Analytical Biochemistry', 'year': '2017'};{'id': 'j_27abdfb77866fdd79062d86624397ebf', 'zh_title': 'Complexation of ruthenium with glucose oxidase modified by 4-pyridineacetic and 4-imidazoleacetic acids', 'authors': 'Vasily N. Goral;Elisabeth Cs?regi;Bo Mattiasson;Alexander D. Ryabov', 'journal': 'Mendeleev Communications', 'year': '1999'};{'id': 'j_852954e42b1ca2c1e3bf58f8c9c29e16', 'zh_title': 'Rational engineering of Aerococcus viridans l-lactate oxidase for the mediator modification to achieve quasi-direct electron transfer type lactate sensor', 'authors': 'Kentaro Hiraka;Katsuhiro Kojima;Wakako Tsugawa;Ryutaro Asano;Kazunori Ikebukuro;Koji Sode', 'journal': 'Biosensors and Bioelectronics', 'year': '2020'};{'id': 'j_51e874ab19f7a9415eeb66dd95176830', 'zh_title': 'Development of a glucose sensor employing quick and easy modification method with mediator for altering electron acceptor preference', 'authors': 'Mika Hatada;Noya Loew;Yuka Inose-Takahashi;Junko Okuda-Shimazaki;Wakako Tsugawa;Ashok Mulchandani;Koji Sode', 'journal': 'Bioelectrochemistry', 'year': '2018'};{'id': 'j_45d03a053cc806f03578b73267234961', 'zh_title': 'SYNTHESIS OF 5-(2,2��-BIPYRIDINYL AND 2,2��-BIPYRIDINEDIIUMYL)-2��-DEOXYURIDINE NUCLEOSIDES: PRECURSORS TO METALLO-DNA CONJUGATES', 'authors': 'Samir T. Gaballah;Charles E. Kerr;Bruce E. Eaton;Thomas L. Netzel', 'journal': 'Nucleosides, Nucleotides and Nucleic Acids', 'year': '2002'};{'id': 'j_f469723033c05cc7590d73adc76997b0', 'zh_title': 'Electrochemical analysis of the coordination sphere of ruthenium(ii) as electron transfer mediator in glucose oxidase catalysis in aqueous solutions', 'authors': 'V. S. Kurova; A. Yu. Ershov; A. D. Ryabov', 'journal': 'Russian Chemical Bulletin', 'year': '2001'};{'id': 'j_df29d7950f99c455621d75ae2c736ca2', 'zh_title': 'Engineered Glucose Oxidase Capable of Quasi-Direct Electron Transfer after a Quick-and-Easy Modification with a Mediator', 'authors': 'Nanami Suzuki;Jinhee Lee;Noya Loew;Yuka Takahashi-Inose;Junko Okuda-Shimazaki;Katsuhiro Kojima;Kazushige Mori;Wakako Tsugawa;Koji Sode', 'journal': 'International Journal of Molecular Sciences', 'year': '2020'};{'id': 'j_a465ae845385879d940cf0419bde6d7c', 'zh_title': 'Perspectives in Bioanalysis] Electrochemistry of Nucleic Acids and Proteins �C Towards Electrochemical Sensors for Genomics and Proteomics Volume 1 || Amperometric Enzyme Sensors based on Direct and Mediated Electron Transfer', 'authors': 'Borgmann, Sabine', 'journal': 'Perspectives in Bioanalysis', 'year': '2005'};{'id': 'j_21087fe5d60cb54a3ced3ddc293872a5', 'zh_title': 'Evaluation of redox mediators for amperometric biosensors: Ru-complex modified carbon-paste/enzyme electrodes', 'authors': 'Ekaterina V. Ivanova;Viktorya S. Sergeeva;Joshua Oni;Christian Kurzawa;Alexander D. Ryabov;Wolfgang Schuhmann', 'journal': 'Bioelectrochemistry', 'year': '2003'};{'id': 'j_45985cc909cf65a9c68084b30428d35a', 'zh_title': 'Transition metal complexes as electrocatalysts��Development and applications in electro-oxidation reactions', 'authors': 'K CHEUNG;W WONG;D MA;T LAI;K WONG', 'journal': 'Coordination Chemistry Reviews', 'year': '2007'};{'id': 'j_4b473efd1d328e9ec0d110e46e7ea737', 'zh_title': 'Application of a glutamate microsensor to brain tissue', 'authors': 'Weite Hendrik Oldenziel', 'year': '2006'};{'id': 'j_68462632a4d81d9a8f62b9873775ca04', 'zh_title': 'Dipolar ruthenium(II) ammine complexes as electron transfer mediators of amperometric glucose sensors', 'authors': 'Yasuo Nakabayashi;Yuri Hirosaki;Osamu Yamauchi', 'journal': 'Bioelectrochemistry', 'year': '2006'};{'id': 'j_3b722a7fe5f609b87023fecc56128438', 'zh_title': '26\u2003Mechanisms of reactions in solution', 'authors': 'N. Winterton', 'journal': 'Annual Reports Section ""A"" (Inorganic Chemistry)', 'year': '2000'};{'id': 'j_92c78eb3528108a953df431d8310b411', 'zh_title': 'A mediated polyphenol oxidase biosensor immobilized by electropolymerization of 1,2-diamino benzene', 'authors': 'Erol Akyilmaz;Ozge Kozgus;Hayati T��rkmen;Bekir ?etinkaya', 'journal': 'Bioelectrochemistry', 'year': '2010'};{'id': 'j_141b6dc211af800afcfcd62efa49c993', 'zh_title': 'Enzymatic Electrosynthesis: An Overview on the Progress in Enzyme- Electrodes for the Production of Electricity, Fuels and Chemicals', 'authors': 'Sandipam Srikanth Yamini Satyawali', 'journal': 'Journal of Microbial & Biochemical Technology', 'year': '2013'};{'id': 'j_9e7de8d7850e232f8081ec3ff29273fc', 'zh_title': 'Three-Dimensional, Enzyme Biohydrogel Electrode for Improved Bioelectrocatalysis', 'authors': 'Ananta Ghimire;Ajith Pattammattel;Charles E. Maher;Rajeswari M. Kasi;Challa V. Kumar', 'journal': 'ACS Applied Materials & Interfaces', 'year': '2017'};{'id': 'j_05b1171b8c7ac8a902a9fa04091e52a7', 'zh_title': '4-Ferrocenylphenol as an electron transfer mediator in PQQ-dependent alcohol and glucose dehydrogenase-catalyzed reactions', 'authors': 'Julija Razumiene;Rolandas Me?kys;Vida Gureviciene;Valdas Laurinavicius;Marina D Reshetova;Alexander D Ryabov', 'journal': 'Electrochemistry Communications', 'year': '2000'};{'id': 'j_66e4aad3710b0eab8e2f0e825e1b43f5', 'zh_title': 'Development of an Enzymeless/Mediatorless Glucose Sensor Using Ruthenium Oxide-Prussian Blue Combinative Analogue', 'authors': 'Annamalai?Senthil Kumar;Pei-Yen Chen;Shu-Hua Chien;Jyh-Myng Zen', 'journal': 'Electroanalysis', 'year': '2005'};{'id': 'j_4c9debf3381218bd966fecf8316919f5', 'zh_title': 'Dinuclear versus mononuclear ruthenium(II) and osmium(II) complexes as potent mediators of glucose oxidase; crystal structure of OsCl(4,4��-bpy)(bpy)2]BF4', 'authors': 'Alexander D. Ryabov;Nathaliya V. Roznyatovskaya;Kinga Suwinska;Mikhail Revenco;Aleksei Y. Ershov', 'journal': 'JBIC Journal of Biological Inorganic Chemistry', 'year': '2003'};{'id': 'j_532153fec0c1fafffd899f0027974f23', 'zh_title': 'Amperometric enzyme biosensors based on optimised electron-transfer pathways and non-manual immobilisation procedures', 'authors': 'Wolfgang Schuhmann', 'journal': 'Journal of biotechnology', 'year': '2002'};{'id': 'j_d4afc64c6770a59cece4d70566c4ded7', 'zh_title': 'Electron-transfer pathways between redox enzymes and electrode surfaces: Reagentless biosensors based on thiol-monolayer-bound and polypyrrole-entrapped enzymes', 'authors': 'Wolfgang Schuhmann;Heiko Zimmermann;Katja Haberm��ller;Valdas Laurinavicius', 'journal': 'Faraday Discussions', 'year': '2000'};{'id': 'j_9b6adb0d62ffe71018c91f5fe0bdd49b', 'zh_title': 'Enzyme-Polymer Covalent Conjugates and Hydrogels for Improved Enzymology and ElectroBiocatalysis', 'authors': 'Ananta  Ghimire', 'year': '2018'}",{},"{'person_id': '05864132a9d926260d26a7d33b3ca59f', 'orcid': ' ', 'name': 'Bo Mattiasson', 'email': '', 'org_name': 'Lund University', 'org_id': '9610ebacd939336a70c2c5e6206cd105', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '724f705fd1146b2bd57df9cadc17ef14', 'orcid': ' ', 'name': 'Elisabeth Cs?regi', 'email': '', 'org_name': 'Lund University', 'org_id': '9610ebacd939336a70c2c5e6206cd105', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '9df56e2dae8e0c7c139d2e416c44b0ad', 'orcid': ' ', 'name': 'Vasily N. Goral', 'email': '', 'org_name': 'Lomonosov Moscow State University', 'org_id': 'ab1baf17aaf8b87d798acb9c559dae18', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '7115a810c94c79ef4e14c37fcdc48d43', 'orcid': 'https://orcid.org/0000-0002-5255-1395', 'name': 'Alexander D. Ryabov', 'email': '', 'org_name': 'Plekhanov Russian University of Economics', 'org_id': '7c365f79bfaaab1fcd5f6c218676d8a6', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'dc6e1b8dbfdef5ac45928f479f1e8f98', 'orcid': ' ', 'name': 'Ekaterina S. Ryabova', 'email': '', 'org_name': 'Lomonosov Moscow State University', 'org_id': 'ab1baf17aaf8b87d798acb9c559dae18', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_5c98282379fb1b4361f8ecdc802f4bb6,10.1002/(sici)1521-3773(20000403)39:7<1180::aid-anie1180>3.0.co;2-e,Integration of Layered Redox Proteins and Conductive Supports for Bioelectronic Applications,2000,Itamar Willner;Eugenii Katz,Itamar Willner,TRUE,2000/4/3,39,7,1180,1218,1433-7851;1521-3773,"Integration of redox enzymes with an electrode support and formation of an electrical contact between the biocatalysts and the electrode is the fundamental subject of bioelectronics and optobioelectronics. This review addresses the recent advances and the scientific progress in electrically contacted, layered enzyme electrodes, and discusses the future applications of the systems in various bioelectronic devices, for example, amperometric biosensors, sensoric arrays, logic gates, and optical memories. This review presents the methods for the immobilization of redox enzymes on electrodes and discusses the covalent linkage of proteins, the use of supramolecular affinity complexes, and the reconstitution of apo-redox enzymes for the nanoengineering of electrodes with protein monolayers of electrodes with protein monolayers and multilayers. Electrical contact in the layered enzyme electrode is achieved by the application of diffusional electron mediators, such as ferrocene derivatives, ferricyanide, quinones, and bipyridinium salts. Covalent tethering of electron relay units to layered enzyme electrodes, the cross-linking of affinity complexes formed between redox proteins and electrodes functionalized with relay-cofactor units, or surface reconstitution of apo-enzymes on relay-cofactor-functionalized electrodes yield bioelectrocatalytic electrodes. The application of the functionalized electrodes as biosensor devices is addressed and further application of electrically ""wired"" enzymes as catalytic interfaces in biofuel cells is discussed. The organization of sensor arrays, self-calibrated biosensors, or gated bioelectronic devices requires the microstructuring of biomaterials on solid supports in the form of ordered micro-patterns. For example, light-sensitive layers composed of azides, benzophenone, or diazine derivatives associated with solid supports can be irradiated through masks to enable the patterned covalent linkage of biomaterials to surfaces. Alternatively, patterning of biomaterials can be accomplished by noncovalent interactions (such as in affinity complexes between avidin and a photolabeled biotin, or between an antibody and a photoisomerizable antigen layer) to provide a means of organizing protein microstructures on surfaces. The organization of patterned hydrophilic/hydrophobic domains on surfaces, by using photolithography, stamping, or micromachining methods, allows the selective patterning of surfaces by hydrophobic, noncovalent interactions. Photoactivated layered enzyme electrodes act as light-switchable optobioelectronic systems for the amperometric transduction of recorded photonic information. These systems can act as optical memories, biomolecular amplifiers, or logic gates. The photoswitchable enzyme electrodes are generated by the tethering of photoisomerizable groups to the protein, the reconstitution of apo-enzymes with semisynthetic photoisomerizable cofactor units, or the coupling of photoisomerizable electron relay units.",Materials Science;Medicine,Angewandte Chemie International Edition,Crossref;corpus;unpaywall;pubmed;openalex;scimag,698,0,FALSE,PM,closed,��ѧ����ѧ��,{},{},{},"{'person_id': '33835e7b10a98d3b662dd8cbfcead6d4', 'orcid': ' ', 'name': 'Eugenii Katz', 'email': '', 'org_name': 'Hebrew University of Jerusalem', 'org_id': '3fd43f2fff6d5183707de3ea5e2d316a', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '517db3cec9bfc9492ed24ae645303963', 'orcid': 'https://orcid.org/0000-0001-9710-9077', 'name': 'Itamar Willner', 'email': '', 'org_name': 'Hebrew University of Jerusalem', 'org_id': '3fd43f2fff6d5183707de3ea5e2d316a', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_f3ff652c7231113ebd351d18e2aa4c46,10.1002/(sici)1521-3897(199911)341:8<757::aid-prac757>3.0.co;2-j,Photokatalytische Aktivierung von molekularem Sauerstoff mittels Eisen(III)porphyrin-Komplexen,1999,Horst Hennig;Doritt Luppa,Horst Hennig,TRUE,1999/11/1,341,8,757,767,1436-9966;1521-3897,"Photochemical charge transfer excitation of tetra-phenyl(porphyrinato)iron(III) complexes yields tetraphenyl) (porphyrinato)iron(II) which is able to coordinate molecular oxygen under formation of oxo-tetraphenyl(porphyrinato)]- iron(IV). Based on this photochemical reaction pathway photocatalytic oxygenation of ��-pinene and other alkenes can be initiated. Iron(III) complexes of tetramesitylporphyrin, tetrakis-(pentafluorophenyl)porphyrin, octa-��-bromo-tetrakis-(pentafluorophenyl)porphyrin, and octa-��-chloro-tetrakis-(pentafluorophenyl)porphyrin were investigated photochemically with the aim to improve the low photochemical efficiency of tetraphenyl(porphyrinato)iron(III). The influence of substituents on the porphyrin ligand on the photochemical behavior of the corresponding iron(III) complexes is measured mainly by means of temperature dependent UV/Vis spectroscopy. Both, the yield of oxygenation products formed photocatalytically with ��-pinene and the product distribution (allylic alcohols versus epoxide) depend on the design of the porphyrin ligands coordinated with iron(III).",Chemistry,Journal f��r praktische Chemie,Crossref;corpus;unpaywall;openalex;scimag,4,0,FALSE,,closed,,"{'org_name': 'Leipzig, Institut f��r Anorganische Chemie der Universit?t', 'org_id': '13e4d6356d08f36442a1d5af381e7f14'}","{'id': 'j_7d197e753cf981369c3e84e1e12bf43d', 'zh_title': 'A Water-Stable Porphyrin-Based Metal-Organic Framework Active for Visible-Light Photocatalysis', 'authors': 'Alexandra Fateeva;Philip A. Chater;Christopher P. Ireland;Asif A. Tahir;Yaroslav Z. Khimyak;Paul V. Wiper;James R. Darwent;Matthew J. Rosseinsky', 'journal': 'Angewandte Chemie', 'year': '2012'};{'id': 'j_354215797c861f27b5b696c13a5b4087', 'zh_title': 'Photocatalytic Oxygenation by Water-Soluble Metalloporphyrins as a Pathway to Functionalized Polycycles', 'authors': 'Ivana ?agud;Irena ?kori?', 'journal': 'International Journal of Photoenergy', 'year': '2018'};{'id': 'j_f99d77f4aa09adbdde1f22f70fcd4636', 'zh_title': 'Photocatalytic Oxygenation of Heterostilbenes��Batch versus Microflow Reactor', 'authors': 'Milena Mlaki?;Anita ?ali?;Matea Ba?i?;Bruno Zeli?;Ivana ?agud;Ott�� Horv��th;Irena ?kori?', 'journal': 'Catalysts', 'year': '2021'};{'id': 'j_9807cbbe4787c0e5813d98ad0a436dc0', 'zh_title': 'New Functionalized Polycycles Obtained by Photocatalytic Oxygenation Using Mn(III) Porphyrins in Basic Media', 'authors': 'Dragana Vuk;Ott�� Horv��th;Irena ?kori?', 'journal': 'Catalysts', 'year': '2019'}",{},"{'person_id': 'b51ea0c61a5995ac21ee030532a05ecc', 'orcid': ' ', 'name': 'Horst Hennig', 'email': '', 'org_name': 'Leipzig University', 'org_id': '901469e6908ad99acc72d131dcb92412', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '338d1529e37ce71f5b74c7fb107c5734', 'orcid': ' ', 'name': 'Doritt Luppa', 'email': '', 'org_name': 'Leipzig University', 'org_id': '901469e6908ad99acc72d131dcb92412', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_e59394a730d0aafc965d7980d2390abb,10.1002/(sici)1521-3935(19990401)200:4<840::aid-macp840>3.0.co;2-6,Layer-by-layer assemblies of polycation bearing Os complex with electroactive and electroinactive polyanions and their electrocatalytic reduction of nitrite,1999,Junqi Sun;Yipeng Sun;Shan Zou;Xi Zhang;Changqing Sun;Yue Wang;Jiacong Shen,Junqi Sun,TRUE,1999/4/1,200,4,840,844,1022-1352;1521-3935,"Layer-by-layer assembled multilayer films were obtained on the surface of quartz slides and gold electrodes by alternating deposition of partially quaternized poly(4-vinylpyridine) complexed with Os(bpy) 2 Cl] +/2+ (PVP-Os) with two kinds of polyanions, poly(sodium 4-styrenesulfonate) (PSS) and poly[aniline-co-N-(3-sulfopropyl)aniline] (PAPSAH). The modified electrodes show electrocatalytic response for the reduction of nitrite. The different electrochemical behavior of these two types of electrodes caused by different polyanions is compared. The potential application as amperometric sensors for nitrite is anticipated.",Chemistry,Macromolecular Chemistry and Physics,Crossref;corpus;unpaywall;openalex;scimag,14,2,FALSE,,closed,�߷��ӿ�ѧ,{},"{'id': 'j_662d246687f6898753087f8908e18bd7', 'zh_title': 'Fabrication of a ��Soft�� Membrane Electrode Assembly Using Layer-by-Layer Technology', 'authors': 'T.\u2009R. Farhat;P.\u2009T. Hammond', 'journal': 'Advanced Functional Materials', 'year': '2006'};{'id': 'j_10d587af061709f513e47f931b6f8496', 'zh_title': 'Formation and Characterization of Heteropolyacid/Polycation Multilayer Films on Gold Electrode', 'authors': 'Zhiliang Cheng;Long Cheng;Shaojun Dong;Xiurong Yang', 'journal': 'Journal of The Electrochemical Society', 'year': '2001'};{'id': 'j_1b33c1c2efcb50679dc729178997a54b', 'zh_title': 'Preparation and the investigation of its electrochemical and photoluminescent characteristics of organic�Cinorganic hybrid multilayers containing europium-substituted heteropolytungstate', 'authors': 'Shengyong Zhai;Yaguang Chen;Shubin Wang;Junguang Jiang;Shaojun Dong;Jinghong Li', 'journal': 'TALANTA', 'year': '2004'};{'id': 'j_8b6fad34327534bcf050ec505bbcaadc', 'zh_title': 'Development of Self-Assembled Conducting Polymer Ultrathin Films and Poly(aniline) Nanowires/Sol-Gel Composite Materials as Substrates for Planar Supported Biomimetic Artificial Photosynthetic Systems', 'authors': 'Chenhao  Ge', 'year': '2006'};{'id': 'j_d70a1a88fba0fee950bb3b0dd7761023', 'zh_title': 'Advances in Electrochemical Sciences and Engineering] Chemically Modified Electrodes Volume 0 (ADV.ELECTROCHEM.SC.V.11 O-BK) || Electrochemically Active Polyelectrolyte-Modified Electrodes', 'authors': 'Alkire, Richard C.; Kolb, Dieter M.; Lipkowski, Jacek; Ross, Philip N. ', 'year': '2009'};{'id': 'j_a916d63ea9d2165b2cf9ac133482fe97', 'zh_title': 'Assembly of multilayer films containing iron(III)-substituted Dawson-type heteropolyanions and its electrocatalytic properties: cyclic voltammetry, electrochemical impedance spectroscopy and UV-Vis spectrometry', 'authors': 'Shengyong Zhai;Shaoyun Gong;Junguang Jiang;Shaojun Dong;Jinghong Li', 'journal': 'ANALYTICA CHIMICA ACTA', 'year': '2003'};{'id': 'j_40e80859fe88ed65101c698e53232853', 'zh_title': 'Nanoscale Materials || Organization of Layer-By-Layer Assembled Nanocomposites', 'authors': 'Liz-Marz��n, Luis M.; Kamat, Prashant V. ', 'year': '2004'};{'id': 'j_4fe194615fb41115c5b92624ecd59404', 'zh_title': 'Characterization of organic�Cinorganic multilayer films by cyclic voltammetry, UV�CVis spectrometry, X-ray photoelectron spectroscopy, small-angle X-ray diffraction and electrochemical impedance spectroscopy', 'authors': 'Zhiliang Cheng;Long Cheng;Qiang Gao;Shaojun Dong;Xiurong Yang', 'journal': 'Journal of Materials Chemistry', 'year': '2002'};{'id': 'j_779213416a98b4d9257114b7b3efa2a0', 'zh_title': 'Electric-field-induced aggregation of polymeric micelles to construct secondary assembly films', 'authors': 'Ren Liu;Jing Luo;Youhua Tao;Ye Zhu;Mingqing Chen;Xiaoya Liu', 'journal': 'Journal of Applied Polymer Science', 'year': '2012'};{'id': 'j_a91f5076b48d737bd04151d85537a559', 'zh_title': 'Electrostatic Assembly with Poly(ferrocenylsilanes)', 'authors': 'Yujie Ma;Mark A. Hempenius;G. Julius Vancso', 'journal': 'Journal of Inorganic and Organometallic Polymers and Materials', 'year': '2007'};{'id': 'j_0fb1dc00c85a85c9efb9817c9adae9ac', 'zh_title': 'Advances in Polymer Science] Ordered Polymeric Nanostructures at Surfaces Volume 200 || Surface Nano- and Microstructuring with Organometallic Polymers', 'authors': 'Vancso, G. Julius', 'journal': 'Advances in Polymer Science', 'year': '2006'};{'id': 'j_71327b66fdb6faad47d58ab53db920e0', 'zh_title': 'Covalently attached multilayer assemblies containing photoreactive diazo-resins and conducting polyaniline', 'authors': 'Junqi Sun;Long Cheng;Feng Liu;Shaojun Dong;Zhiqiang Wang;Xi Zhang;Jiacong Shen', 'journal': 'Colloids and Surfaces A: Physicochemical and Engineering Aspects', 'year': '2000'};{'id': 'j_6ab70adcdfaaf676d06d5e15c7aa4de2', 'zh_title': 'Multilayer Thin Films (Sequential Assembly of Nanocomposite Materials) || Electrochemically Active LbL Multilayer Films: From Biosensors to Nanocatalysts', 'authors': 'Decher, Gero; Schlenoff, Joseph B. ', 'year': '2012'};{'id': 'j_0ea1130954ef1ea9722ce2d912eed7aa', 'zh_title': 'The oxidation and reduction behavior of nitrite at carbon nanotube powder microelectrodes', 'authors': 'Yuan-Di Zhao;Wei-De Zhang;Qing-Ming Luo;Sam Fong Yau Li', 'journal': 'MICROCHEMICAL JOURNAL', 'year': '2003'}","{'id': 'j_de62e2db45125659b996801f1af9e924', 'zh_title': 'Chemically Modified Electrodes: ADV.ELECTROCHEM.SC.V.11 O-BK', 'authors': 'Richard C. Alkire;Dieter M. Kolb;Jacek  Lipkowski;Philip N. Ross', 'year': '2009'};{'id': 'j_95f327a5f3a7f585d2af9bb31563b220', 'zh_title': 'Electroresponsive Molecular and Polymeric Systems', 'authors': 'Skotheim', 'year': '1988'}","{'person_id': '595c64c9197b643c8847f273f37c0e09', 'orcid': 'https://orcid.org/0000-0002-2480-6821', 'name': 'Shan Zou', 'email': '', 'org_name': 'Jilin University', 'org_id': '4dd02337f0db3fa1bc95bc45c47978b4', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'b206b8180941eb0f2902118258d6be06', 'orcid': 'https://orcid.org/0000-0002-2446-0306', 'name': 'Xi Zhang', 'email': '', 'org_name': 'Jilin University', 'org_id': '4dd02337f0db3fa1bc95bc45c47978b4', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'd72330e7818ba7855698fea9916abbff', 'orcid': ' ', 'name': 'Yipeng Sun', 'email': '', 'org_name': 'Jilin University', 'org_id': '4dd02337f0db3fa1bc95bc45c47978b4', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '322997f5946874e6718049d5eeee81c5', 'orcid': ' ', 'name': 'Changqing Sun', 'email': '', 'org_name': 'Jilin University', 'org_id': '4dd02337f0db3fa1bc95bc45c47978b4', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'ae4c14aa54e7c3d20ec8a337b0fb8f3d', 'orcid': ' ', 'name': 'Yue Wang', 'email': '', 'org_name': 'Jilin University', 'org_id': '4dd02337f0db3fa1bc95bc45c47978b4', 'author_num': 6, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'a3ba216f2271e597951c47eace50446d', 'orcid': 'https://orcid.org/0000-0002-7284-9826', 'name': 'Junqi Sun', 'email': '', 'org_name': 'Jilin University', 'org_id': '4dd02337f0db3fa1bc95bc45c47978b4', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'dbd33098e299c24bffc05042815e5b29', 'orcid': ' ', 'name': 'Jiacong Shen', 'email': '', 'org_name': 'Jilin University', 'org_id': '4dd02337f0db3fa1bc95bc45c47978b4', 'author_num': 7, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_3dca0a254831be3d40753ea0b7cef35c,10.1002/(sici)1521-3935(20000101)201:1<102::aid-macp102>3.0.co;2-f,An active catalyst system for proton reduction composed of a bipyridyl platinum complex and a polymer membrane,2000,Toshiyuki Abe;Kumiko Takahashi;Yukihide Shiraishi;Naoki Toshima;Masao Kaneko,Toshiyuki Abe,TRUE,2000/1/1,201,1,102,106,1022-1352;1521-3935,"Electrocatalysis for the H + reduction with bis(2.2'-bipyridyl ) Pt complex (P((bpy 2 2+ in a polymer matrix was studied. When the cyclic voltammogram (CV) was measured at a basal-plane pyrolytic graphite (BPG) electrode coated with a Nafion? (Nf) membrane incorporating Pt(bpy) 2 2+ (denoted as BPG/NfPt(bpy) 2 2+ ]), a remarkable growth of the cathodic current due to H + reduction was observed below -0.4 V (vs. Ag/AgCl) in a repeated scanning. A much higher amount of H 2 was obtained with the system BPG/Nf[Pt(bpy) 2 2+ ] showed the formation of zero-valent Pt after the electrochemical process, indicating that H + reduction begins to take place after formation of the catalytically active species. This work shows that a highly active catalyst system for H + reduction can be fabricated from a noble metal complex and a polymer matrix.",Chemistry,Macromolecular Chemistry and Physics,Crossref;corpus;unpaywall;openalex;scimag,11,0,FALSE,,closed,�߷��ӿ�ѧ,"{'org_name': '�ijǴ�W', 'org_id': 'f9635b3f4e4652fdcc118600ae2d8103'}","{'id': 'j_2fd3e548edd6070d9e50ac70a5a146df', 'zh_title': 'Porosity induced rigidochromism in platinum(ii) terpyridyl luminophores immobilized at silica composites', 'authors': 'Amie E. Norton;Kassio P. S. Zanoni;Marie-Anne Dourges;Leandro P. Ravaro;Mahmood K. Abdolmaleki;Andrea S. S. de Camargo;Thierry Toupance;William B. Connick;Sayandev Chatterjee', 'journal': 'Journal of Materials Chemistry C', 'year': '2021'};{'id': 'j_8d2959dd9b0732596ba3d7b9f1ef5ee8', 'zh_title': 'Electrochemistry of ferric ruthenocyanide (Ruthenium Purple), and its electrocatalysis for proton reduction', 'authors': 'Toshiyuki Abe;Go Toda;Akio Tajiri;Masao Kaneko', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2001'};{'id': 'j_2e0510b9a23969317b307b0609162eed', 'zh_title': 'Polymer Science: A Comprehensive Reference || Metal-Containing Macromolecules', 'authors': 'Abd-El-Aziz, A.S.', 'year': '2012'};{'id': 'j_3fc257ba1d1d56491c4daa6e4f64f76b', 'zh_title': 'Electrocatalytic pathways towards sustainable fuel production from water and CO2', 'authors': 'Jane L. Inglis;Brian J. MacLean;Mary T. Pryce;Johannes G. Vos', 'journal': 'Coordination Chemistry Reviews', 'year': '2012'};{'id': 'j_0c266d8a149a40302e8ef70bcfff27cf', 'zh_title': 'Electrocatalysis for proton reduction by a coated Nafion? membrane dispersing ruthenium moieties', 'authors': 'Toshiyuki Abe;Tomio Goto;Kunio Ohzeki;Masao Kaneko', 'journal': 'Electrochimica Acta', 'year': '2000'};{'id': 'j_7f90662370133c45fb9a8b134fb07ba6', 'zh_title': 'Electrocatalytic reduction of protons and oxygen at glassy carbon electrodes coated with a cobalt(II)/platinum(II) porphyrin', 'authors': 'Jessica Knoll;Shawn Swavey', 'journal': 'Inorganica Chimica Acta', 'year': '2009'};{'id': 'j_b419112d9711dd409abb046b56ccd1ec', 'zh_title': 'Reduction catalysis by metal complexes confined in a polymer matrix', 'authors': 'Toshiyuki Abe;Masao Kaneko', 'journal': 'Progress in Polymer Science', 'year': '2003'};{'id': 'j_ecba509ad12020b6135c2828c69d3051', 'zh_title': 'Metal-Containing Macromolecules', 'authors': 'Hans R. Kricheldorf;Oskar  Nuyken;Graham  Swift', 'year': '2004'};{'id': 'j_39c087e56c68e31d72bb146a6a61e4e9', 'zh_title': 'Historical Overview and Fundamental Aspects of Molecular Catalysts for Energy Conversion', 'authors': 'T.  Okada;Toshiyuki  Abe;Masayoshi  Kaneko', 'year': '2009'};{'id': 'j_5b7f7d53bc9a3f3c5529acdab57e3eda', 'zh_title': 'Vapochromic and mechanochromic films from square-planar platinum complexes in polymethacrylates', 'authors': 'Justin R. Kumpfer;Stephen D. Taylor;William B. Connick;Stuart J. Rowan', 'journal': 'Journal of Materials Chemistry', 'year': '2012'};{'id': 'j_29e7c898fa748d3eba33bb289e1131a3', 'zh_title': 'Ru,Rh,Ru Supramolecular Photocatalysts within Nafion? Membranes: Ion-exchange, Photoelectrolysis and Electron Transfer Processes', 'authors': 'Elise Michele Naughton', 'year': '2016'}",{},"{'person_id': 'e4f3ff58cecb2ba28ecb3594da817600', 'orcid': 'https://orcid.org/0000-0003-2579-142X', 'name': 'Yukihide Shiraishi', 'email': '', 'org_name': 'Sanyo-Onoda City University', 'org_id': 'a0bbb8dd4f12f7f898bd7cc605353243', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'ddef5cb1a0aaa8ca6b78f6d2cace2147', 'orcid': 'https://orcid.org/0000-0001-7585-6346', 'name': 'Naoki Toshima', 'email': '', 'org_name': 'Sanyo-Onoda City University', 'org_id': 'a0bbb8dd4f12f7f898bd7cc605353243', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'a51d0b3ef5aa28109f95b2a57866fa96', 'orcid': 'https://orcid.org/0000-0002-8661-3152', 'name': 'Toshiyuki Abe', 'email': '', 'org_name': 'Hirosaki University', 'org_id': 'e6b5dd81c57d5936afcd1811d0795f3b', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '7387e9d6ec30cedb115f565d13e2a450', 'orcid': ' ', 'name': 'Kumiko Takahashi', 'email': '', 'org_name': 'Ibaraki University', 'org_id': '05e8cff01063e8e958ac12e9cea9bf9c', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': ' ', 'orcid': ' ', 'name': 'Masao Kaneko', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_9d84d1dcfb9a1cc29e912b2675b9aa8b,10.1002/(sici)1521-4044(199810)49:10/11<652::aid-apol652>3.0.co;2-c,Crosslinked integrated enzyme electrodes for bioelectronic applications,1998,I. Willmer,I. Willmer,TRUE,1998/10/1,49,10��11��,652,662,0323-7648;1521-4044,"Affinity interactions between electron-relay-functionalized electrodes and redox enzymes form stable protein-monolayer assemblies that upon crosslinking yield integrated, electrically contacted, enzyme electrodes. A functionalized monolayer consisting of pyrroloquinoline quinone, covalently linked to N6-(2-aminoethyl)-NAD+ (PQQ-NAD monolayer), was assembled on a Au electrode. The NAD - cofactor units form an affinity complex with the NAD - dependent enzyme lactate dehydrogenase (LDH). Crosslinking of the affinity complex with glutaric dialdehyde yields a stable crosslinked two-dimensional array of the enzyme on the electrode surface. The resulting PQQ-NAD / LDH crosslinked protein array is electrically contacted and reveals bioelectrocatalytic features. The electrocatalyzed oxidation of biocatalytically generated NADH by the PQQ components yields an amperometric response whose magnitude is related to the concentration of lactate. Similarly. an integrated, electrically contacted, enzyme electrode was generated by the crosslinking of a microperoxidase-11 (MP-11) and nitrate reductase (NR) affinity complex on a Au electrode with glutaric dialdehyde. Bioelectrocatalyzed reduction of nitrate (NOT) to nitrite (NO 2 - ) by the crosslinked enzyme electrode proceeds by the MP-11-mediated reduction of NR. The enzyme electrode stimulates the electrocatalyzed reduction of NO 3 - with a current yield corresponding to ca. 85%.",Chemistry,Acta Polymerica,Crossref;corpus;unpaywall;openalex;scimag,6,0,FALSE,,closed,,{},"{'id': 'j_e7b2d6d52f0fb20b1265306231fa9d01', 'zh_title': 'Development of a bienzyme system for the electrochemical determination of nitrate in ambient air', 'authors': 'Yue Cui;John P. Barford;Reinhard Renneberg', 'journal': 'ANALYTICAL AND BIOANALYTICAL CHEMISTRY', 'year': '2006'};{'id': 'j_db736cd971f7773b788006eb37cf97ec', 'zh_title': 'Comprehensive Analytical Chemistry] Biosensors and Modern Biospecific Analytical Techniques Volume 44 || Chapter 1 Biosensors based on self-assembled monolayers', 'authors': 'Schlereth, Daniela D.', 'journal': 'Comprehensive Analytical Chemistry', 'year': '2005'};{'id': 'j_f2f1fa04086bbb5bb0863bc27c778169', 'zh_title': 'Generating monomeric 5-coordinated microperoxidase-11 using carboxylic acid functionalized silver nanoparticles: A surface-enhanced resonance Raman scattering analysis', 'authors': 'Govindasamy Kalaivani;Arumugam Sivanesan;Ayyadurai Kannan;Ranganathan Sevvel', 'journal': 'Colloids and Surfaces B: Biointerfaces', 'year': '2016'};{'id': 'j_a97e6746c30d401bf0a4bcf3bf6b1277', 'zh_title': 'Potentiometric vs amperometric sensing of glycerol using glycerol dehydrogenase immobilized via layer-by-layer self-assembly', 'authors': 'Aishwarya Mahadevan;Duminda A. Gunawardena;Raghupathy Karthikeyan;Sandun Fernando', 'journal': 'Microchimica Acta', 'year': '2014'};{'id': 'j_a867e756fc86b8d0d81be9faef8ada27', 'zh_title': 'Biofuel cells Based on the Immobilization of Photosynthetically Active Bioentities', 'authors': 'Christophe F. Meunier;Xiao-Yu Yang;Joanna C. Rooke;Bao-Lian Su', 'journal': 'ChemCatChem', 'year': '2011'};{'id': 'j_4e7a67fd24aca10715adf5385585d71e', 'zh_title': 'Reagentless biosensor for isocitrate using one step modified Pt-Ir microelectrode', 'authors': 'A Pereira', 'journal': 'Talanta', 'year': '2001'}",{},"{'person_id': ' ', 'orcid': ' ', 'name': 'I. Willmer', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_96f5aa1b9af23b1b4075de9693fa6fd4,10.1002/(sici)1521-4095(199801)10:2<135::aid-adma135>3.0.co;2-m,Photogeneration of Highly Amphiphilic TiO2 Surfaces,1998,Rong Wang;Kazuhito Hashimoto;Akira Fujishima;Makoto Chikuni;Eiichi Kojima;Atsushi Kitamura;Mitsuhide Shimohigoshi;Toshiya Watanabe,Rong Wang,TRUE,1998/1/1,10,2,135,138,0935-9648;1521-4095,"The discovery of photoinduced water splitting on TiO2 electrodes has prompted extensive research on TiO2 and other semiconductor materials, which have been widely adopted as potential substances for solar energy conversion and environmental purification. Most work has focused on improving the efficiency of energy conversion or photocatalytic reactions. Little research has been reported to clarify the effect of light on the properties of TiO2 surfaces. Very recently, we found that UV illumination of TiO2 materials can generate surfaces that display 0 contact angle for both water and oily liquids. Following this finding, intensive research has been performed to explicate the mechanism of this unique amphiphilic surface character. In this communication, we report the details of the photoconvertible surface wettability. The formation of a microstructured composite between hydrophilic and oleophilic phases, which results from the photogenerated Ti defects at definite sites, is considered to account for this unique feature. The observation of the amphiphilic surfaces was initiated by the contact angle measurements of TiO2 anatase thin films. The water contact angle for a freshly prepared film averaged 15 ��1 . After the sample had been stored in the dark for 2 months, the water contact angle increased to 72 ��1 . When a water droplet touched the UV-illuminated film, it spread immediately, leaving an irregular shape on the surface with a contact angle of 0 ��1 . The contact angle of glycerol trioleate (GT), a main ingredient of edible oil, for the TiO2 surface was also measured. Prior to UV illumination, the GT contact angle averaged 10 ��1 , indicating that the surface is hydrophobic and oleophilic. Surprisingly, after UV illumination a GT droplet also spread out, resulting in a contact angle of 0 ��1 when it touched the TiO2 surface. Parallel experiments were performed using other liquid species, e.g., hexadecane, ethylene glycol, tetralin. Distinct contact angles resulted for the hydrophobic TiO2 surface. However, all of the liquids spread completely on a UV-illuminated TiO2 surface, with a contact angle of 0 ��1 . This leads to the tremendous conclusion that UV illumination has created a surface that is both highly hydrophilic and highly oleophilic. The wettability change was observed on both anatase and rutile TiO2 surfaces in the form of either polycrystals or a single crystal, independent of their photocatalytic activities. Even after the TiO2 had been stored in the dark for a few days, the high amphiphilicity of the TiO2 surface was maintained. A longer storage period induced a gradual increase in the water contact angle, revealing a surface wettability trend towards hydrophobicity. However, the high amphiphilicity was repeatedly regenerated by UV illumination. Surface wettability is generally denoted by the contact angle. According to Young's equation, the contact angle of a liquid drop on a solid surface results from the balance between the cohesive forces in the liquid and the adhesive forces between the solid and the liquid. For a certain liquid, the predominant contribution to the contact angle comes from the interfacial character of the solid material, which is related to its surface structure. Therefore, structural change of the TiO2 surface via UV illumination may play an important role in its unique wettability. Friction force microscopy (FFM) images supply information at a microscopic level to explain surface wettability. A rutile TiO2(110) single crystal was used since its wettability behavior (as induced by UV illumination) is analogous to anatase polycrystalline films. In addition, a flat surface is required for FFM measurement. Before UV illumination (Fig. 1a), no difference in contrast was observed for either the FFM image or the topographic image (not shown here), indicating microscopically homogeneous wettability on the surface. After UV illumination (Fig. 1b), however, a distribution of hydrophilic (bright) and oleophilic (dark) areas was clearly seen on the surface. Figure 1c shows a medium scale FFM image, corresponding to the framed area in Figure 1b, which illustrates hydrophilic domains with a regular rectangular shape in the range of 30��80 nm in size. A higher resolution topographic image (Fig. 1d) was also acquired, demonstrating that the hydrophilic domains are higher in position than the oleophilic areas. The image was viewed by rotating the sample stage by 45 with respect to Figure 1c, indicating that the characteristic structure is irrespective of the scanning direction. All the images show that the rectangular features align particularly along the 001] direction of the (110) single-crystal surface. As schematically illustrated in Figure 2A, oxygen bridging sites align along the same direction. It is widely accepted that the atomic coordinations at the TiO2 surface differ from those in the bulk since the atom arrangements are truncated on the surface. This gives rise to five-coordinated Ti atoms and two-coordinated O atoms, which are more energetically reactive than the six-coordinated Ti and",Materials Science,Advanced Materials,Crossref;corpus;unpaywall;openalex;scimag,670,0,FALSE,,closed,���׿�ѧ�����׼���;������Ӧ��;����������̬;��ѧ������;���Ͽ�ѧ����ѧ��;��ѧ����ѧ��,"{'org_name': 'toto', 'org_id': 'f71dbe52628a3f83a77ab494817525c6'}",{},{},"{'person_id': '2e4678ff57a37cf9fa417e45bd668454', 'orcid': ' ', 'name': 'Toshiya Watanabe', 'email': '', 'org_name': 'Toto', 'org_id': ' ', 'author_num': 8, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'e833e1f86706390745a7733123646eee', 'orcid': ' ', 'name': 'Eiichi Kojima', 'email': '', 'org_name': 'Toto', 'org_id': ' ', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '45e742227f8be1f76535ea89b0bfa5d2', 'orcid': ' ', 'name': 'Atsushi Kitamura', 'email': '', 'org_name': 'Toto', 'org_id': ' ', 'author_num': 6, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'fd65ac216498acd65fff68cc4d3f0939', 'orcid': 'https://orcid.org/0000-0001-5770-0807', 'name': 'Rong Wang', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '513d380c21668cb01e38598688a4cbdc', 'orcid': ' ', 'name': 'Makoto Chikuni', 'email': '', 'org_name': 'Toto', 'org_id': ' ', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '2d6e4c4160785742ca4d113d976a11f8', 'orcid': ' ', 'name': 'Mitsuhide Shimohigoshi', 'email': '', 'org_name': 'Toto', 'org_id': ' ', 'author_num': 7, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '899288ea8acd14e8f8aebd0346e092e1', 'orcid': 'https://orcid.org/0000-0002-8384-8749', 'name': 'Kazuhito Hashimoto', 'email': '', 'org_name': 'University of Tokyo', 'org_id': 'f4e8c77ae04427f31fead4dcaad31805', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '1fb004b64d4e6ce4fceeea939dc92df7', 'orcid': ' ', 'name': 'Akira Fujishima', 'email': '', 'org_name': 'University of Tokyo', 'org_id': 'f4e8c77ae04427f31fead4dcaad31805', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_e43925cb1f539ff476b9ed4e837489ba,10.1002/(sici)1521-4095(199810)10:14<1100::aid-adma1100>3.0.co;2-2,Electroactivity Enhancement by Redox Matching in Cobalt Salen-Based Conducting Polymers,1998,Richard P. Kingsborough;Timothy M. Swager,Richard P. Kingsborough,TRUE,1998/10/1,10,14,1100,1104,0935-9648;1521-4095,"The preparation of polymer-modified electrodes that function as electrocatalysts, chemical sensors, and electrochromic displays remains an active field of research. We are currently engaged in the design of new conducting polymer architectures containing transition metals in welldefined coordination environments. Our interest in these materials is motivated by the wealth of desirable characteristics endowed by transition metals for the development of sensory materials that should be responsive to anions, Lewis bases, and small molecules (CO, O2, NO, etc.). 3,4]",Materials Science,Advanced Materials,Crossref;corpus;unpaywall;openalex;scimag,120,0,FALSE,,closed,���׿�ѧ�����׼���;������Ӧ��;����������̬;��ѧ������;���Ͽ�ѧ����ѧ��;��ѧ����ѧ��,{},{},{},"{'person_id': 'cb43b0de39dc90512fd39c8bbdf114b5', 'orcid': 'https://orcid.org/0000-0003-3812-1898', 'name': 'Richard P. Kingsborough', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '0d4c5dd692617f49b6f3e5a2de2d9cdb', 'orcid': 'https://orcid.org/0000-0002-3577-0510', 'name': 'Timothy M. Swager', 'email': '', 'org_name': 'Massachusetts Institute of Technology', 'org_id': '13472e5711f56ae7aed1245eeacb86a5', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_1f8bd4ba57704c4026421717515193d1,10.1002/(sici)1521-4095(199902)11:2<154::aid-adma154>3.0.co;2-b,Improved Charge Transfer at Carbon Nanotube Electrodes,1999,Pichumani J. Britto;Kalathur S. V. Santhanam;Angel Rubio;Julio A. Alonso;Pulickel M. Ajayan,Pichumani J. Britto,TRUE,1999/2/1,11,2,154,157,0935-9648;1521-4095,"The closed topology and tubular structure of carbon nanotubes make them unique among different carbon forms and provide pathways for chemical studies. A number of investigations have been carried out to find applications of nanotubes in catalysis, hydrogen storage, intercalation, etc. Since carbon-electrode-based fuel cells have been experimented with for decades, it is of importance to learn the electrodic performance of these new carbon structures. We report here results of the electrocatalytic reduction of dissolved oxygen (important H2��O2 fuel cell reaction), using microelectrodes constructed from multiwalled nanotubes. In parallel, ab initio calculations were performed for oxygen deposited on the lattice and defect sites of nanotube surfaces to determine the charge transfer during oxygen reduction and compared with similar reactions on planar graphite. The microelectrodes were constructed in the following way (see Fig. 1). Multiwalled nanotubes (10 mg) prepared by the electric arc discharge process and liquid paraffin (4 mL) were intimately mixed, placed in the narrow cylindrical slot of a Perspex holder and then packed by smooth vibration. The assembly was cured at 50 C for 30 min. From the inner side of the Perspex, contact to a copper lead was made through conducting paint. Carbon paste electrodes (based on commercially available graphite powder) were prepared similarly. Carbon nanotube electrodes were prepared earlier by similar techniques to probe bioelectrochemical reactions. The need for oxygen reduction at catalytic surfaces has been recognized in fuel cells, batteries, and many other electrodic applications. Hence, oxygen reduction at nanotube surfaces is of great interest. Electrochemical reduction of dissolved oxygen is carried out in aqueous acidic (H2SO4) and neutral media (1 M KNO3). The solution is first degassed by bubbling nitrogen gas for about 15�� 30 min in order to record the background current��voltage curves. Under these conditions, no cyclic voltammetric peak in the potential range 0 to ��0.8 V were observed. The same solutions were then saturated with oxygen by bubbling oxygen gas for 15 min. The cyclic voltammetric curve showed a well-defined peak at Epc = ��0.31 V vs. SCE (saturated calomel electrode) in H2SO4 solution (pH 2) at the carbon nanotube electrodes. At the carbon paste electrodes only an ill-defined peak is seen at Epc = ��0.48 V. In the KNO3 medium (pH 6.2), the reduction of dissolved oxygen is observed at Epc = ��0.51 V at the carbon nanotube electrode. This peak is shifted at the carbon paste electrode by about 30 mV. The shift of the peaks, corresponding to the reaction on the nanotube electrodes, is a strong indication of the electrocatalysis on this electrode (see discussion below). The shift may be considered as an overpotential, which indicates a more facile reaction occurring at the nanotubes compared to other carbons. The electrochemical reduction of oxygen is a function of pH of the medium as proton participation occurs as described by Equation 1.",Materials Science,Advanced Materials,Crossref;corpus;unpaywall;openalex;scimag,432,3,FALSE,,closed,���׿�ѧ�����׼���;������Ӧ��;����������̬;��ѧ������;���Ͽ�ѧ����ѧ��;��ѧ����ѧ��,{},{},"{'id': 'j_f21aea872e2f80abaf18149acbd94495', 'zh_title': 'Techniques for characterization of electrodes and electrochemical processes', 'authors': 'Ravi  Varma;J. R. Selman', 'year': '1991'};{'id': 'j_ce2f49d68db50ce9581a2600bf0e11ec', 'zh_title': 'Carbon Nanotubes: Preparation and Properties', 'authors': 'Thomas W. Ebbesen', 'year': '1996'};{'id': 'j_50ae5d210b84134d6606ce912518e917', 'zh_title': 'Science of fullerenes and carbon nanotubes', 'authors': 'Lawrence B. Ebert', 'year': '1996'}","{'person_id': ' ', 'orcid': ' ', 'name': 'Pichumani J. Britto', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '503b785134b6ceb7c70628cd0247b194', 'orcid': 'https://orcid.org/0000-0002-8604-8608', 'name': 'Julio A. Alonso', 'email': '', 'org_name': 'Rensselaer Polytechnic Institute', 'org_id': '01b80dc1825d9979100e7b16ea782aaf', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '9f00be3b60b41ddf6f951d95fd53ce10', 'orcid': 'https://orcid.org/0000-0001-8323-7860', 'name': 'Pulickel M. Ajayan', 'email': '', 'org_name': 'Rensselaer Polytechnic Institute', 'org_id': '01b80dc1825d9979100e7b16ea782aaf', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '84b9f36f1d31134b9f7544d716fdf9c6', 'orcid': 'https://orcid.org/0000-0001-6999-5577', 'name': 'Angel Rubio', 'email': '', 'org_name': 'Rensselaer Polytechnic Institute', 'org_id': '01b80dc1825d9979100e7b16ea782aaf', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'c55f6976ad738208a588d438450688bf', 'orcid': 'https://orcid.org/0000-0002-1378-7186', 'name': 'K. S. V. Santhanam', 'email': '', 'org_name': 'Rensselaer Polytechnic Institute', 'org_id': '01b80dc1825d9979100e7b16ea782aaf', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_f96b122df0fe91d92228eef1e137b24f,10.1002/(sici)1521-4095(199908)11:11<943::aid-adma943>3.0.co;2-l,Preparation and Characterization of Nanostructured Titania Thick Films,1999,Maria Cristina Carotta;Matteo Ferroni;Vincenzo Guidi;Giuliano Martinelli,Maria Cristina Carotta,TRUE,1999/8/1,11,11,943,946,0935-9648;1521-4095,"The extraordinary modification of bulk-material properties provided by nanosized materials, due to magnification of surface effects, has encouraged the scientific community to seek novel methodologies of synthesis. Among these, particular emphasis has been given to the techniques that envisage large-scale production and could improve the present-day technology. Nanostructured titania films possess an immense range of applications, e.g. in the field of optics, electrical insulation, photovoltaic solar cells, electrochromic displays, antibacterial coatings, photocatalytic reactors, high-performance anodes in ion batteries, and for gas sensing. Indeed, the production of nanostructured titania thin films has been recently carried out by several methods. It was also shown that some applications greatly benefited from a nanostructured phase for TiO2. 11]",Materials Science,Advanced Materials,Crossref;corpus;unpaywall;openalex;scimag,80,1,FALSE,,closed,���׿�ѧ�����׼���;������Ӧ��;����������̬;��ѧ������;���Ͽ�ѧ����ѧ��;��ѧ����ѧ��,"{'org_name': 'Dipartimento di Fisica and INFM, Via Paradiso 12, I�\44100 Ferrara (Italy)', 'org_id': '22267bf6090b6b483ac1998034a4337f'}","{'id': 'j_3fdae3e65e5b94d730440d0d164ada45', 'zh_title': 'Preparation and properties of nanostructured TiO2 electrode by a polymer organic-medium screen-printing technique', 'authors': 'Tingli Ma;Tetsuya Kida;Morito Akiyama;Kozo Inoue;Shuji Tsunematsu;Ken Yao;Hiroaki Noma;Eiichi Abe', 'journal': 'Electrochemistry Communications', 'year': '2003'};{'id': 'j_46daeb97c658f08c4f41743c2b507662', 'zh_title': 'The development of gas sensor for carbon monoxide monitoring using nanostructure of Nb�CTiO2', 'authors': 'T. Anukunprasert;C. Saiwan;E. Traversa', 'journal': 'Science and Technology of Advanced Materials', 'year': '2005'};{'id': 'j_5ecc771fd0617297d49a22583684def3', 'zh_title': 'Vanadium and tantalum-doped titanium oxide (TiTaV): a novel material for gas sensing', 'authors': 'Maria Cristina Carotta;Vincenzo Guidi;Cesare Malag��;Beatrice Vendemiati;Alex Zanni;Giuliano Martinelli;Michele Sacerdoti;Silvia Licoccia;Maria Luisa Di Vona;Enrico Traversa', 'journal': 'Sensors and Actuators B-chemical', 'year': '2005'};{'id': 'j_dd3291300c97d7ae45bb41371b7f4b8f', 'zh_title': 'XAS investigation of tantalum and niobium in nanostructured TiO2 anatase', 'authors': 'Michele Sacerdoti;Maria Chiara Dalconi;Maria Cristina Carotta;Barbara Cavicchi;Matteo Ferroni;Stefano Colonna;Maria Luisa Di Vona', 'journal': 'Journal of Solid State Chemistry', 'year': '2004'};{'id': 'j_9e1637b147a114fb91355f210a3c2719', 'zh_title': 'Room-Temperature Synthesis of Porous Nanoparticulate TiO2 Films for Flexible Dye-Sensitized Solar Cells', 'authors': 'D. Zhang;T. Yoshida;T. Oekermann;K. Furuta;H. Minoura', 'journal': 'Advanced Functional Materials', 'year': '2006'};{'id': 'j_38f6f907fa288420ce142186608123c5', 'zh_title': 'Impedance spectroscopy analysis of TiO2 thin film gas sensors obtained from water-based anatase colloids', 'authors': 'M.A. Ponce;R. Parra;R. Savu;E. Joanni;P.R. Bueno;M. Cilense;J.A. Varela;M.S. Castro', 'journal': 'Sensors and Actuators B-chemical', 'year': '2009'};{'id': 'j_ef8ab24189705ba855cb7e9f595aefb3', 'zh_title': 'Preparation of ordered mesoporous TiO2\n thin film and its application in methanol catalytic combustion', 'authors': 'Yurong Bian;Xiaohong Wang;Zhigang Zeng;Zhiyu Hu', 'journal': 'Surface and Interface Analysis', 'year': '2013'};{'id': 'j_91941c57e573f2b6975cd841f03068f1', 'zh_title': 'Corrosion protection of mild steel by applying TiO2 nanoparticle coating via sol-gel method', 'authors': 'A. Shanaghi;A. R. Sabour;T. Shahrabi;M. Aliofkhazraee', 'journal': 'Protection of Metals and Physical Chemistry of Surfaces', 'year': '2009'};{'id': 'j_e57e5d422bdb209da491c6d9c20008b9', 'zh_title': 'Coalescence inhibition in nanosized titania films and related effects on chemoresistive properties towards ethanol', 'authors': 'M. Ferroni;V. Guidi;G. Martinelli;G. Roncarati;E. Comini;G. Sberveglieri;A. Vomiero;G. Della Mea', 'journal': 'Journal of Vacuum Science & Technology B', 'year': '2002'};{'id': 'j_9a6483632afbb541a2d3e1ab652bf280', 'zh_title': 'Flame Synthesis of Nanostructured Transition Metal Oxides: Trends, Developments, and Recent Advances', 'authors': 'Wilson  Merchan-Merchan;Walmy  Cuello Jimenez;Octavio  Rodriguez Coria;Chad  Wallis', 'journal': 'Nanomaterials Synthesis', 'year': '2019'};{'id': 'j_97e9abd09eab0bf6cf83cc57d6ce5e33', 'zh_title': 'A quasi-solid-state dye-sensitized solar cell based on sol�Cgel derived in situ gelation of a siloxane hybrid electrolyte', 'authors': 'Jun-Young Bae;DaeSup Lim;Ho-Gyeong Yun;Myoung Kim;JungHo Jin;Byeong-Soo Bae', 'journal': 'RSC Advances', 'year': '2012'};{'id': 'j_6a982c82e8425a473551e126c4917de8', 'zh_title': '(Ti, Sn)O2 binary solid solutions for gas sensing: Spectroscopic, optical and transport properties', 'authors': 'M CAROTTA;S GHERARDI;V GUIDI;C MALAGU;G MARTINELLI;B VENDEMIATI;M SACERDOTI;G GHIOTTI;S MORANDI;A BISMUTO', 'journal': 'Sensors and Actuators B-chemical', 'year': '2008'};{'id': 'j_15f10ae2e098c580391e25bd2b40727d', 'zh_title': 'Selective sublimation processing of thin films for gas sensing', 'authors': 'V. Guidi;G. Martinelli;G. Schiffrer;A. Vomiero;C. Scian;G. Della Mea;E. Comini;M. Ferroni;G. Sberveglieri', 'journal': 'Sensors and Actuators B-chemical', 'year': '2005'};{'id': 'j_d9fb2830ef4510f719e6b30ee9a09be1', 'zh_title': 'A Study on Characteristics of Dye-Sensitized Solar Cells With Plasma-Treated TiO2 Films as a Function of Dye-Adsorption Time', 'authors': 'Myoung Kim;In-Hwan Lee;Man Gu Kang;Ho-Gyeong Yun', 'journal': 'Journal of Solar Energy Engineering', 'year': '2012'};{'id': 'j_fffa2f0c518eca9a1bb874889b8c3631', 'zh_title': 'The Electrochemistry of Nanostructured Titanium Dioxide Electrodes', 'authors': 'Thomas Berger;Dami��n Monllor-Satoca;Milena Jankulovska;Teresa Lana-Villarreal;Roberto G��mez', 'journal': 'Chemphyschem : a European journal of chemical physics and physical chemistry', 'year': '2012'};{'id': 'j_60ccba67b4654f57b3c631514782d0a1', 'zh_title': 'Development of nanocrystalline TiO2�CEr2O3 and TiO2�CTa2O5 thin film gas sensors: Controlling the physical and sensing properties', 'authors': 'M.R. Mohammadi;D.J. Fray', 'journal': 'Sensors and Actuators B-chemical', 'year': '2009'};{'id': 'j_11b06eb6aa0d43c5852a5108a1aae842', 'zh_title': 'Preparing thick, defect-free films of anatase titania for dye-sensitized solar cells', 'authors': 'Fahd M. Rajab;David Loaring;Kirk J. Ziegler', 'journal': 'Thin Solid Films', 'year': '2011'};{'id': 'j_db47c2552a78476c27ef13d4e183ba6d', 'zh_title': 'Structural and electronic properties of screen-printed Fe2O3/TiO2 thick films and their photoelectrochemical behavior', 'authors': 'Obrad S. Aleksi?;Zorka ?. Vasiljevi?;Milica Vujkovi?;Marko Nikoli?;Neboj?a Labus;Miloljub D. Lukovi?;Maria V. Nikoli?', 'journal': 'Journal of Materials Science', 'year': '2017'};{'id': 'j_a2b5b721b39b93580eec5020cc464c08', 'zh_title': 'Nano-structured TiO2film fabricated at room temperature and its acoustic properties', 'authors': 'Jie Zhu;Wenwu Cao;Bei Jiang;D S Zhang;H Zheng;Q Zhou;K K Shung', 'journal': 'Journal of Physics D: Applied Physics', 'year': '2008'};{'id': 'j_b4a49b0b26662ca38b4236d4da04ec33', 'zh_title': 'Microstructural Evolution of Titania Nanocrystallites by a Hydrothermal Treatment: A HRTEM study', 'authors': 'Walid A. Daoud;John H. Xin;G. K. H. Pang', 'journal': 'Journal of the American Ceramic Society', 'year': '2005'};{'id': 'j_fbbc5baa7c6eebbc3055b73ac8405e19', 'zh_title': 'Influence of Ce(III)/Ce(IV) - supplements on the Characteristics of Humidity Sensors with TiO2 Films Prepared via a Sol-gel Method', 'authors': 'S. Kozhukharov;Z. Nenova;T. Nenov;M. Machkova;V. Kozhukharov', 'journal': 'Bolet��n de la Sociedad Espa?ola de Cer��mica y Vidrio', 'year': '2013'};{'id': 'j_05887aefe34a1ba9bff975e0e57f4932', 'zh_title': 'Purification of titania nanoparticle thin films: Triviality or a challenge?', 'authors': 'Urmas Joost;Anu Saarva;Meeri Visnapuu;Ergo N?mmiste;Kathriin Utt;Rando Saar;Vambola Kisand', 'journal': 'Ceramics International', 'year': '2014'};{'id': 'j_d79f3c0cf97f8cca99160bf06c0ae7e9', 'zh_title': 'A simple particulate sol�Cgel route to synthesize nanostructural TiO2�CTa2O5 binary oxides and their characteristics', 'authors': 'M.R. Mohammadi;D.J. Fray;S.K. Sadrnezhaad;A. Mohammadi', 'journal': 'Materials Science and Engineering B-advanced Functional Solid-state Materials', 'year': '2007'};{'id': 'j_dc6f40655649025c360af2af176c56b9', 'zh_title': 'mpedance spectroscopy analysis of TiO 2 thin film gas sensors obtained from ater-based anatase colloids', 'authors': 'A.  Poncea;R.  Parraa;R.  Savub;E.  Joannib;P. R. Buenob;M.  Cilenseb;J. A. Varelab;M. S. Castroa', 'year': '2009'};{'id': 'j_2155fd65b8e8768cde3f2a6f089e75b9', 'zh_title': 'Study of TiO2 nanoparticle coatings by the sol-gel method for corrosion protection', 'authors': 'A. Shanaghi;A. Sabour Rouhaghdam;T. Shahrabi;M. Aliofkhazraei', 'journal': 'Materials Science', 'year': '2008'};{'id': 'j_b9546a5f2386649cf3fd09be7418e3a3', 'zh_title': 'Nanograined anatase titania-based optochemical gas detection', 'authors': 'A Setaro;S Lettieri;D Diamare;P Maddalena;C Malag��;M C Carotta;G Martinelli', 'journal': 'New Journal of Physics', 'year': '2008'};{'id': 'j_c1afcd0086d29cd00e2842dae913c99e', 'zh_title': 'AC measurements and modeling of WO3 thick film gas sensors', 'authors': 'C. Malag��;M.C. Carotta;S. Gherardi;V. Guidi;B. Vendemiati;G. Martinelli', 'journal': 'Sensors and Actuators B-chemical', 'year': '2005'};{'id': 'j_4bf674ebb2eb3103bede77e7778bf12f', 'zh_title': 'Influence of processing parameters on the electrical response of screen printed SrFe0.6Ti0.4O3?�� thick films', 'authors': 'A. Sanson;E. Mercadelli;E. Roncari;R. Licheri;R. Orr��;G. Cao;E. Merlone-Borla;D. Marzorati;A. Bonavita;G. Micali;G. Neri', 'journal': 'Ceramics International', 'year': '2010'};{'id': 'j_0c71e35ce087745171bdf7e6a0c05fd0', 'zh_title': 'Triangular network of crystalline submicron rutile TiO2 block assembly: An alcohol sensor', 'authors': 'Suman Pokhrel;Lihua Huo;Hui Zhao;Shan Gao', 'journal': 'SENSORS AND ACTUATORS B-CHEMICAL', 'year': '2008'};{'id': 'j_5d3a8bca850db70ff1f4833758c427bb', 'zh_title': 'Mixed nanostructured oxides of Ti and VI-B group elements for gas sensing', 'authors': 'Vincenzo  Guidi;Elisabetta  Comini;Guido  Faglia;Matteo  Ferroni', 'journal': 'Proceedings of IEEE Sensors', 'year': '2002'};{'id': 'j_f1579a925b37baa1239bd089b1567a7b', 'zh_title': 'Nanostructured TiO2 Films with 2\u2009eV Optical Gap', 'authors': 'E. Barborini;A.\u2009M. Conti;I. Kholmanov;P. Piseri;A. Podest��;P. Milani;C. Cepek;O. Sakho;R. Macovez;M. 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+j_81b901254ab65ef72ac4b022c86c862d,10.1002/(sici)1521-4109(199801)10:1<7::aid-elan7>3.0.co;2-j,A Biosensor System for Chlorophenols Using Chloroperoxidase and a Glucose Oxidase Based Amperometric Electrode,1998,Coralie Saby;John H. T. Luong,Coralie Saby,TRUE,1998/1/1,10,1,7,11,1040-0397;1521-4109,"A combined electrocatalytic approach using chloroperoxidase and a glucose oxidase electrode has been developed for the measurement of chlorophenol (CP) congeners. Chloroperoxidase possessed a capability to generate a significant or detectable amount of electroactive species from the oxidation of 4-CP, 2,3-dichlorophenol (DCP), 2,4-DCP, 2,5-DCP, 3,4-DCP, 3,5-DCP, 2,3,4-trichlorophenol (TCP), 2,3,5-TCP, 2,3,6-TCP, 2,4,5-TCP, 2,4,6-TCP, and 2,3,4,6-tetraCP. The optimal oxidation conditions were established as 33 ��M chlorophenol, 33 U/mL chloroperoxidase and 1.33 mM hydrogen peroxide for 15 min at ambient temperature. 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+j_b3293e7b6e34c7f98b7e5f43ddb770a8,10.1002/(sici)1521-4109(199802)10:2<111::aid-elan111>3.0.co;2-v,Electrochemical Sensor for Hydrazine Based on Silica Modified with Nickel Tetrasulfonated Phthalocyanine,1998,Elizabeth F. Perez;Graciliano de Oliveira Neto;Auro A. Tanaka;Lauro T. Kubota,Elizabeth F. Perez,TRUE,1998/2/1,10,2,111,115,1040-0397;1521-4109,"Nickel tetrasulfonated phthalocyanine (NiTsPc) immobilized onto titanized silica gel (ST) showed good stability and redox properties. The cyclic voltammograms obtained with a carbon paste electrode modified with ST-NiTsPc presented an enhanced peak current at 450 mV (vs. SCE) which did not shift with solution pH. The redox process was attributed to NiII/NiIII, which presented a good electrocatalytical activity for oxidizing hydrazine in neutral solution. The process is controlled by the electron transfer step and no diffusion limitation was observed. The modified electrode was very sensitive for hydrazine, giving a detection limit of 1.0?��?10?5 mol L?1, for an applied potential of 450 mV (vs. SCE). A linear response range was observed between 1.0?��?10?4 and 6.0?��?10?4 mol L?1, fit by the equation I?=??0.1 (��?0.1)?+?7.9 (��?0.3) Hydrazine], with a correlation coefficient of 0.998 for n?=?6. The repeatability for 11 measurements was excellent, with a relative standard deviation of 3.7?%. The active material, nickel tetrasulfonated phthalocyanine modified silica, was stable for at least 6 months, losing only 10?% of its signal over this period.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,51,40,FALSE,,closed,��ѧ������;�绯ѧ,"{'org_name': '��Ƥ��˹������ѧ', 'org_id': '16f2f3eb6c8de0da8681d947fe489312'};{'org_name': 'Department of Chemistry, UFMA, S?o Luis, MA, Brazil', 'org_id': '69453d6b2640578c7defac35f80885b2'}","{'id': 'j_064120547cce4cce67d1f99512531675', 'zh_title': 'Amperometric determination of hydrazine at manganese hexacyanoferrate modified graphite�Cwax composite electrode', 'authors': 'D. Jayasri;S. 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+j_8b3275e95200c4f3a67146d21b786993,10.1002/(sici)1521-4109(199806)10:7<462::aid-elan462>3.0.co;2-f,Electrochemical Behavior of Copper Porphyrin Synthesized into Zeolite Cavity: A Sensor for Hydrazine,1998,Silvia V. Guerra;Claudia R. Xavier;Shirley Nakagaki;Lauro T. Kubota,Silvia V. Guerra,TRUE,1998/6/1,10,7,462,466,1040-0397;1521-4109,"The copper tetraphenylporphyrin (CuTPP) was prepared within a NaY zeolite cavity to investigate the electrocatalytic behavior of CuTPP upon the oxidation of hydrazine and cysteine. The amount of 0.067 mmol g?1 of CuTPP was obtained in the zeolite cavities. Cyclic voltammetry showed only an anodic peak at 320 mV that was assigned to the oxidation of CuI to CuII. This peak was not affected by the supporting electrolyte nature or by solution pH. The electrode showed electrocatalytic activity to oxidize both cysteine and hydrazine, however for cysteine the activity was weak, possibly as a result of the adsorption of oxidation product (cystine). Although hydrazine oxidation was efficient, neither oxidation was diffusion controlled. A linear correlation between catalytic current and hydrazine concentration allows sensing of hydrazine in the 0.2 �� 10?6 to 1.0 �� 10?6 mol L?1 concentration range. The detection limit was 1.0 �� 10?7 mol L?1, and the response time was 1.1 s. The sensor was stable for at least 6 months under continuous use.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,52,32,FALSE,,closed,�绯ѧ;��ѧ������,"{'org_name': '��Ƥ��˹������ѧ', 'org_id': '16f2f3eb6c8de0da8681d947fe489312'};{'org_name': '�����������ѧ', 'org_id': 'aa2290fe3b87176d3296309f09fea329'}","{'id': 'j_f55d11598f11c82a7656a0d51c076f68', 'zh_title': 'Detection of hydrazine based on Nano-Au deposited on Porous-TiO2 film', 'authors': 'Guangfeng Wang;Cuihong Zhang;Xiuping He;Zejun Li;Xiaojun Zhang;Lun Wang;Bin Fang', 'journal': 'Electrochimica Acta', 'year': '2010'};{'id': 'j_16ed92067cb9d27e7be93de669e7676e', 'zh_title': 'Porphyrin Derivative Nanoformulations for Therapy and Antiparasitic Agents', 'authors': 'Daiana K. Deda;Bernardo A. Iglesias;Eduardo Alves;Koiti Araki;Celia R. S. 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Guerra', 'email': '', 'org_name': 'State University of Campinas', 'org_id': '83e5b0ca8fbe4bc2fbd3263e1293b281', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '02451d5ad64529c33f2ee9320ef5d547', 'orcid': 'https://orcid.org/0000-0001-9562-7049', 'name': 'Shirley Nakagaki', 'email': '', 'org_name': 'Federal University of Paran��', 'org_id': 'dfc5debd4f4f4db8a7b5b62f856a28dd', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'f09350dda015fee5e58bf0938a530e98', 'orcid': 'https://orcid.org/0000-0001-8189-2618', 'name': 'Lauro T. Kubota', 'email': '', 'org_name': 'State University of Campinas', 'org_id': '83e5b0ca8fbe4bc2fbd3263e1293b281', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_1fab5ae16b070ab6cbc5813e4961b568,10.1002/(sici)1521-4109(199807)10:8<536::aid-elan536>3.0.co;2-3,Determination of Codeine in Human Plasma and Drug Formulation Using a Chemically Modified Electrode,1998,Jyh-Myng Zen;Ming-Ren Chang;Hsieh-Hsun Chung;Ying Shih,Jyh-Myng Zen,TRUE,1998/7/1,10,8,536,540,1040-0397;1521-4109,"Both flow injection methodology and square-wave voltammetry were developed and evaluated for determining codeine in human plasma and pharmaceutical formulations using a Nafion/ruthenium oxide pyrochlore chemically modified electrode. Combining the electrocatalytic function of the ruthenium-oxide pyrochlore with charge-exclusion and the preconcentration features of Nafion perform well in codeine detection. Compared to a bare glassy carbon electrode, the chemically modified electrode exhibits a shift of the oxidation potential in cathodic direction and a marked enhancement of the current response. A linear calibration plot is obtained over the 0�C32 ��M range in 0.05 M HClO4 solution with a detection limit (3��) of 10 nM in the square-wave voltammetric method. While, in flow-injection analysis, a linear calibration plot is obtained over the 0.5�C40 ��M range with a detection limit of 0.86 ng. Quantitative analysis was performed by the standard addition method for codeine content in human plasma and a commercially available drug.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,19,12,FALSE,,closed,�绯ѧ;��ѧ������,"{'org_name': 'Department of Applied Cosmetology, Hung-Kuang Institute of TechnologyTaichung 433Taiwan', 'org_id': 'b255adb3303bcb0f1e68a8b52143124d'}","{'id': 'j_34bbdadcce0d9878baf6a6ec3e226d37', 'zh_title': 'Screen-printed biosensor based on the inhibition of the acetylcholinesterase activity for the determination of codeine', 'authors': 'Laura Asturias-Arribas;M. Asunci��n Alonso-Lomillo;Olga Dom��nguez-Renedo;M. Julia Arcos-Mart��nez', 'journal': 'Talanta', 'year': '2013'};{'id': 'j_6a54d86b796108731045d02d018d82b7', 'zh_title': 'Cytochrome P450 2D6 based electrochemical sensor for the determination of codeine', 'authors': 'Laura Asturias-Arribas;M. Asunci��n Alonso-Lomillo;Olga Dom��nguez-Renedo;M. Julia Arcos-Mart��nez', 'journal': 'Talanta', 'year': '2014'};{'id': 'j_97c4da6941b13c1954defadcabf963d2', 'zh_title': 'Voltammetric Determination of Codeine on Glassy Carbon Electrode Modified with Nafion/MWCNTs', 'authors': 'Robert Piech;Martyna Rumin;Beata Paczosa-Bator', 'journal': 'Journal of Analytical Methods in Chemistry', 'year': '2015'};{'id': 'j_262791b4fedef7ab6ccd892cd8499a99', 'zh_title': 'Polymers and Small-Molecule Ru Species', 'authors': 'Ulrich S. Schubert;Andreas  Winter;George R. Newkome', 'journal': 'Ruthenium-Containing Polymers', 'year': '2021'};{'id': 'j_ad39b95ae75b3b90f0bbd41d8f0c9ce7', 'zh_title': 'Electrochemical Analysis of Opiates �� An Overvie', 'authors': 'Jorge M. P. J. Garrido;Cristina  Delerue-Matos;Fernanda  Borges;Tice R. A. Macedo;A. M. Oliveira-Brett', 'year': '2004'};{'id': 'j_8d7f9a9d9068f7587a4cfaf13c2fc1c1', 'zh_title': 'Electrochemical Analysis of Opiates��An Overview', 'authors': 'Jorge M. P. J. Garrido;Cristina Delerue�\Matos;Fernanda Borges;Tice R. A. Macedo;A. M. Oliveira�\Brett', 'journal': 'Analytical Letters', 'year': '2004'};{'id': 'j_ecf7c92dc23ef4f6cd14350a7c03dae2', 'zh_title': 'Fabrication of a New Electrochemical Sensor for Simultaneous Determination of Codeine and Diclofenac Using Synergic Effect of Feather-Type La3+-ZnO Nano-Flower', 'authors': 'Nasrin Arefi Nia;Mohammad Mehdi Foroughi;Shohreh Jahani;Mehdi Shahidi Zandi;Nahid Rastakhiz', 'journal': 'Journal of The Electrochemical Society', 'year': '2019'};{'id': 'j_d49dd9dc6064526be0d54fac5a6b66a9', 'zh_title': 'Application of multivariate optimization method in nanomolar simultaneous determination of morphine and codeine in the presence of uric acid using a glassy carbon electrode modified with a hydroxyapatite-Fe3O4 nanoparticle/multiwalled carbon nanotubes composite', 'authors': 'Ali Babaei;Mohammad Afrasiabi;Meisam Shabanian', 'journal': 'Journal of the Iranian Chemical Society', 'year': '2017'};{'id': 'j_12ea421f78eaa30c8ae358f9fc9a9a56', 'zh_title': 'Determination of codeine in urine and drug formulations using a clay-modified screen-printed carbon electrode', 'authors': 'Y Shih;J.-M Zen;H.-H Yang', 'journal': 'Journal of pharmaceutical and biomedical analysis', 'year': '2002'};{'id': 'j_8a1259d3c772df14b7a63b0647255876', 'zh_title': 'Simultaneous determination of ascorbic acid, acetaminophen and codeine based on multi-walled carbon nanotubes modified with magnetic nanoparticles paste electrode', 'authors': 'M. Taei;H. Salavati;F. Hasanpour;S. Habibollahi;H. Baghlani', 'journal': 'Materials Science and Engineering: C', 'year': '2016'};{'id': 'j_fe801de437f3c9a36989667aec02a3c8', 'zh_title': 'ELECTROANALYTICAL DETERMINATION OF CODEINE IN PHARMACEUTICAL PREPARATIONS', 'authors': 'Jorge M. P. J. Garrido;Cristina Delerue-Matos;Fernanda Borges;Tice R. A. Macedo;A. M. Oliveira-Brett', 'journal': 'Analytical Letters', 'year': '2002'};{'id': 'j_c20c7e70cbc1211fa31d50a50752b5e6', 'zh_title': 'Amperometric Detection of Morphine at Preheated Glassy Carbon Electrode Modified with Multiwall Carbon Nanotubes', 'authors': 'Abdollah Salimi;Rahman Hallaj;Gholam-Reza Khayatian', 'journal': 'Electroanalysis', 'year': '2005'};{'id': 'j_9324d2d415d9e602add99d9d2f57b9f2', 'zh_title': 'Different interaction of codeine and morphine with DNA: A concept for simultaneous determination', 'authors': 'Ali A. Ensafi;E. Heydari-Bafrooei;B. Rezaei', 'journal': 'Biosensors & bioelectronics', 'year': '2013'};{'id': 'j_b51aa50726d69a1a400382f314a0f20d', 'zh_title': 'Mechanistic Studies and Sensitive Determination of Norepinephrine at a Nafion/Lead-Ruthenium Oxide Pyrochlore Chemically Modified Electrode', 'authors': 'Jyh-Myng Zen;Annamalai Senthil Kumar;Jyh-Cheng Chen', 'journal': 'Electroanalysis', 'year': '2001'};{'id': 'j_d58b67ea78355c8789e5f00f44ac50de', 'zh_title': 'Voltammetric determination of some alkaloids and other compounds in pharmaceuticals and urine using an electrochemically activated glassy carbon electrode', 'authors': 'Anu?a Campean;Mihaela Terti?;Robert S?ndulescu', 'journal': 'Central European Journal of Chemistry', 'year': '2011'};{'id': 'j_778e3b49832fe5c2c23102c6e6aff3e9', 'zh_title': 'A Mimicking Enzyme Analogue for Chemical Sensors', 'authors': 'Jyh-Myng Zen;Annamalai Senthil Kumar', 'journal': 'Accounts of Chemical Research', 'year': '2001'};{'id': 'j_4f72aea0dfb906e0a6eceb007cbfa112', 'zh_title': 'The Analytical Applications of Square Wave Voltammetry on Pharmaceutical Analysis', 'authors': 'Bengi Uslu', 'journal': 'The Open Chemical and Biomedical Methods Journal', 'year': '2010'};{'id': 'j_f127a5b1f9dda316b987106ccc30c143', 'zh_title': 'Low Frequency Sound for Effective Sensitivity Enhancement in Staircase Voltammetry', 'authors': '?. Mikkelsen;K. Schr?der', 'journal': 'Analytical Letters', 'year': '2000'};{'id': 'j_83ec279db035c3b00fdfc5c9861e15ac', 'zh_title': 'Two new electrochemical methods for fast and simultaneous determination of codeine and diclofenac', 'authors': 'Denise Tofanello Gimenes;Rafael Rodrigues Cunha;Michelle Miranda Ara��jo de Carvalho Ribeiro;Polyana Fernandes Pereira;Rodrigo Alejandro Abarza Mu?oz;Eduardo Mathias Richter', 'journal': 'Talanta', 'year': '2013'}","{'id': 'j_c95d098f0bbe6febbb7e3fb031bc1a2a', 'zh_title': 'Improved method for the simultaneous determination of morphine, codeine and dihydrocodeine in blood by high-performance liquid chromatography with electrochemical detection', 'authors': 'K.R. Bedford;P.C. White', 'journal': 'Journal of chromatography', 'year': '1985'};{'id': 'j_edf88babf349065397728a236a67651f', 'zh_title': 'Determination of dissolved oxygen by catalytic reduction on a Nafion? / ruthenium-oxide pyrochlore chemically modified electrode', 'authors': 'J.-M. Zen;C.-B. Wang', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1994'};{'id': 'j_6144f6f7f4e877e34def6c660f0110e6', 'zh_title': 'Flow Injection Amperometric Detection of Hydrazine by Electrocatalytic Oxidation at a Perfluorosulfonated Ionomer/Ruthenium Oxide Pyrochlore Chemically Modified Electrode', 'authors': 'Jyh-Myng. Zen;Jen-Sen. Tang', 'journal': 'Analytical Chemistry', 'year': '1995'};{'id': 'j_999f497fb76c2c39421fa025acac8b6e', 'zh_title': 'Quantitative GLC Determination of Codeine in Plasma', 'authors': 'Ruth A. Zweidinger;F.M. Weinberg;R.W. Handy', 'journal': 'Journal of pharmaceutical sciences', 'year': '1976'};{'id': 'j_0a68731821cf482d7ff988e1469211da', 'zh_title': 'Square-Wave Voltammetric Determination of Uric Acid by Catalytic Oxidation at a Perfluorosulfonated Ionomer/Ruthenium Oxide Pyrochlore Chemically Modified Electrode', 'authors': 'Jyh-Myng. Zen;Jen-Sen. Tang', 'journal': 'Analytical Chemistry', 'year': '1995'};{'id': 'j_3ec1dc58a3aa0b47622a4bd346f05f92', 'zh_title': 'Plastic membrane electrodes for the potentiometric determination of codeine in pharmaceutical preparations', 'authors': 'Eman M. Elnemma;M. A. Hamada', 'journal': 'Microchimica Acta', 'year': '1997'};{'id': 'j_b8e3c15aa4e80e51979e761b16505942', 'zh_title': 'Direct determination of codeine, norcodeine, morphine and normorphine with their corresponding O-glucuronide conjugates by high-performance liquid chromatography with electrochemical detection', 'authors': 'C.P.W.G.M. Verwey-Van Wissen;P.M. Koopman-Kimenai;T.B. Vree', 'journal': 'Journal of chromatography', 'year': '1991'};{'id': 'j_4c31e865f8e86b3f51be1a4ebd35e5ab', 'zh_title': 'Codeine kinetics as determined by radioimmunoassay', 'authors': 'John W. A. Findlay;Robert F. Butz;Richard M. Welch', 'journal': 'Clinical Pharmacology & Therapeutics', 'year': '1977'};{'id': 'j_54812e5b93a1e62bc57344446d682b6b', 'zh_title': 'Voltammetric determination of dopamine in the presence of ascorbic acid at a chemically modified electrode', 'authors': 'Jyh-Myng Zen;I-Lang Chen', 'journal': 'Electroanalysis', 'year': '1997'};{'id': 'j_aeab6ddad71406136f3e2b93a9489fc9', 'zh_title': 'Assay for codeine, morphine and ten potential urinary metabolites by gas chromatography��mass fragmentography', 'authors': 'E.J. Cone;W.D. Darwin;W.F. Buchwald', 'journal': 'Journal of chromatography', 'year': '1983'};{'id': 'j_e589510500dd9fdb952e4c11c5e55871', 'zh_title': 'Simultaneous determination of caffeine and acetaminophen in drug formulations by square-wave voltammetry using a chemically modified electrode', 'authors': 'Jyh-Myng Zen;Yuan-Shih Ting', 'journal': 'Analytica Chimica Acta', 'year': '1997'};{'id': 'j_3ba84d6ad1f31ae5d06eb20267d71f48', 'zh_title': 'Simultaneous determination of codeine, norcodeine and morphine in biological fluids by high-performance liquid chromatography with fluorescence detection', 'authors': 'Zhao Rong Chen;Felix Bochner;Andrew Somogyi', 'journal': 'Journal of chromatography', 'year': '1989'}","{'person_id': ' ', 'orcid': ' ', 'name': 'Jyh-Myng Zen', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '6e83ea54c80e283602e125031d9de97c', 'orcid': ' ', 'name': 'Hsieh-Hsun Chung', 'email': '', 'org_name': 'National Chung Hsing University', 'org_id': '455ed62697583584c9ea2a9c939120c8', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '22b4e004a0af9281578a5c369e3ee724', 'orcid': ' ', 'name': 'Ying Shih', 'email': '', 'org_name': 'Hungkuang University', 'org_id': '48a4a5e33d4e5974586a7a0ddade412b', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'be42d7d305032ce914b94294164d7e7e', 'orcid': ' ', 'name': 'Ming-Ren Chang', 'email': '', 'org_name': 'National Chung Hsing University', 'org_id': '455ed62697583584c9ea2a9c939120c8', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_119c979c46244973b976001297a8cc06,10.1002/(sici)1521-4109(199807)10:8<579::aid-elan579>3.0.co;2-c,The Preparation and Characterization of the Mo-S-Ag Modified Electrode and Its Electrocatalytic Effect on the Oxidation of Ascorbic Acid,1998,Jun-Jie Zhu;Xiang-Rong Ye;Hong-Yuan Chen;Xin-Quan Xin;Ke-Ping Qian,Jun-Jie Zhu,TRUE,1998/7/1,10,8,579,582,1040-0397;1521-4109,,Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,6,13,FALSE,,closed,��ѧ������;�绯ѧ,{},"{'id': 'j_de9fa5ab7f78a70247c65fa995c171a0', 'zh_title': 'Electrochemical Behavior of Myoglobin at a Thiamazole Modified Silver Electrode', 'authors': 'Jun-Jie Zhu;Kai Gu;Guang-Chao Zhao;Hong-Yuan Chen', 'journal': 'ANALYTICAL LETTERS', 'year': '1999'};{'id': 'j_c8fe266ef93b7e6a20cec9d91e88ac6f', 'zh_title': 'XPS and AES investigation of nanometer composite coatings of Ni\ue5f8P\ue5f8ZnX on steel surface (ZnX = ZnSnO3, Zn3(PO4)2, ZnSiO3)', 'authors': 'Pan Tao;Ma Mei-Hua;Xin Fei-Bo;Xin Xin-Quan', 'journal': 'Applied Surface Science', 'year': '2001'};{'id': 'j_339043d920b0cf490f244809bec1590c', 'zh_title': 'Simultaneous Determination of Paracetamol, Ascorbic Acid and Codeine by Differential Pulse Voltammetry on the Aluminum Electrode Modified by Thin Layer of Palladium', 'authors': 'M.\u2005H. Pournaghi-Azar;A. Saadatirad', 'journal': 'Electroanalysis', 'year': '2010'};{'id': 'j_270ed5de9a4725a27a2c6fd42eaaf27e', 'zh_title': 'Differentiation of Detection of Ascorbic Acid and Dehydroascorbic Acid Using Hydrodynamic Amperometry and Anodic Stripping Voltammetry on Modified Aluminum Electrodes', 'authors': 'M.a\x80\x85H. Pournaghi-Azar;H. Dastangoo;R. Fadakar', 'journal': 'Electroanalysis', 'year': '2010'};{'id': 'j_cecd31627a0c44314cb529b903bac8d2', 'zh_title': 'A Novel Sensor Based on Layer-by-Layer Hybridized Phosphomolybdate and Poly(ferrocenylsilane) on a Cysteamine Modified Gold Electrode', 'authors': 'Chuangye Chen;Yonghai Song;Li Wang', 'journal': 'ELECTROANALYSIS', 'year': '2008'};{'id': 'j_53cbd4f7188b42fe929544409aaf7a4d', 'zh_title': 'Preparation, Characterization, and Corrosion Resistance Property of a Novel Nickel Phosphorous Composite Material', 'authors': 'Ping Yin;Yucai Hu;Pijian Zhang;Qiang Xu;Lei Chen;Qinghua Tang', 'journal': 'PHOSPHORUS SULFUR AND SILICON AND THE RELATED ELEMENTS', 'year': '2010'}","{'id': 'j_1ea4edbc64a4801fbd25b9126d3a3e2f', 'zh_title': 'Chemical Microstructures on Electrodes', 'authors': 'LARRY R. FAULKNER', 'journal': 'Chemical & Engineering News', 'year': '1984'};{'id': 'j_2d6ceb082347850023daf3cdc24cd7c4', 'zh_title': 'SERS application to some electroorganic reactions', 'authors': 'Machiko Takahashi;Masato Fujita;Masatoki Ito', 'journal': 'Surface Science', 'year': '1985'};{'id': 'j_5a684417987e2336d449b5e30fb438a0', 'zh_title': 'Electrocatalytic oxidation of ascorbic acid at osmium(2,2��-bipyridyl)2-(poly-4-vinylpyridine)10Cl]Cl modified electrodes; implications for the development of biosensors based on osmium-containing redox relays', 'authors': 'Andrew P. Doherty;Margaret A. Stanley;Johannes G. Vos', 'journal': 'The Analyst', 'year': '1995'};{'id': 'j_be00e0c948c3ac5e905f2677745c1b88', 'zh_title': 'Complexes of d8 metals with tetrathiomolybdate and tetrathiotungstate ions. Synthesis, spectroscopy, and electrochemistry', 'authors': 'Kenneth P. Callahan;Pamela A. Piliero', 'journal': 'Inorganic Chemistry', 'year': '1980'};{'id': 'j_bf3d050b64cfa4ebbbbbe406ef15142f', 'zh_title': 'SERS and XPS studies of the molecular orientation of thiophenols from the gaseous state onto silver', 'authors': 'Gi Xue;Ming Ma;Junfeng Zhang;Yun Lu;Keith T Carron', 'journal': 'Journal of Colloid and Interface Science', 'year': '1992'};{'id': 'j_36197a69de1e8550c0772e639cb78eef', 'zh_title': 'A Banner Year for Project SEED', 'authors': 'JAMES SHOFFNER', 'journal': 'Chemical & Engineering News', 'year': '1984'};{'id': 'j_657e46250ddba7e6532743e90a3f2614', 'zh_title': 'Electrocatalysis of ascorbate and NASH at a surface modified graphite-epoxy electrode', 'authors': 'Ladislav Falat;Hung-Yuan Cheng', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1983'};{'id': 'j_1aa3e016b88b2297830a9c0a0468dc13', 'zh_title': 'M-S (M=Mo, W) cluster compound films on copper surfaces', 'authors': 'X.R. Ye;H.W. Hou;X.Q. Xin;C.F. Hammer', 'journal': 'Applied Surface Science', 'year': '1995'};{'id': 'j_4fab5fac9a3d3c72f6797c0e2b8291be', 'zh_title': 'Voltammetric behaviour of ascorbic acid at a graphite��epoxy composite electrode chemically modified with cobalt phthalocyanine and its amperometric determination in multivitamin preparations', 'authors': 'Stephen A. Wring;John P. Hart;Brian J. Birch', 'journal': 'Analytica Chimica Acta', 'year': '1990'};{'id': 'j_541737257ba35d405d0b044b362e9efe', 'zh_title': 'Catalytic oxidation of ascorbic acid by some ferrocene derivative mediators at the glassy carbon electrode. Application to the voltammetric resolution of ascorbic acid and dopamine in the same sample', 'authors': 'M.H. Pournaghi-Azar;R. Ojani', 'journal': 'Talanta', 'year': '1995'};{'id': 'j_d7b6a708f5523c28f47ff41701eb67f5', 'zh_title': 'A review of the immobilization of enzymes in electropolymerized films', 'authors': 'P.N. Barlett;J.M. Cooper', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1993'};{'id': 'j_85edc03e21ccc55c8abfd9d505378d79', 'zh_title': 'The preparation of different types of polynuclear transition metal sulfur compounds by thiometallates, including cubane-like ones. Crystal structures of Cu3WS3Cl}(PPh3)3S, {Cu3WS3Cl}(PPh3)3O, {Cu3MoS3Cl}(PPh3)3S, {Cu3MoS3Cl}(PPh33O, (PPh3)3Cu2WS4��0.8CH2Cl2 and (PPh3)3Ag2MoS4��0.8CH2Cl2', 'authors': 'Achim M��ller;Harmut B?gge;Uwe Schimanski', 'journal': 'Inorganica Chimica Acta', 'year': '1983'};{'id': 'j_27583dcfcee5a879920412016bdde620', 'zh_title': 'Syntheses and characterization of ammonium and tetraalkylammonium thiomolybdates and thiotungstates', 'authors': 'John W. McDonald;G.Delbert Friesen;Laurence D. Rosenhein;William E. Newton', 'journal': 'Inorganica Chimica Acta', 'year': '1983'}","{'person_id': '7c7fc6108ecd339a0bbd77cd4748b920', 'orcid': 'https://orcid.org/0000-0001-5217-668X', 'name': 'Hong-Yuan Chen', 'email': '', 'org_name': 'Nanjing University', 'org_id': ' ', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'a686fcdc6219cea0363e0080a5634c6b', 'orcid': ' ', 'name': 'Ke-Ping Qian', 'email': '', 'org_name': 'University of Florida', 'org_id': '8c601620aa8a97ba9adbf28d7bd770c4', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'c2e5ee6a0d8804717200333cf50b0001', 'orcid': 'https://orcid.org/0000-0002-4838-8388', 'name': 'Jun-Jie Zhu', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '2673676c2eaca5fafe132aa41692a8e7', 'orcid': ' ', 'name': 'Xiang-Rong Ye', 'email': '', 'org_name': 'Nanjing University', 'org_id': ' ', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '854574244be5c9a4aa547a94ebc23b38', 'orcid': ' ', 'name': 'Xinquan Xin', 'email': '', 'org_name': 'Nanjing University', 'org_id': ' ', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_33b9243eee20e41d2f921f65462ce35f,10.1002/(sici)1521-4109(199809)10:11<779::aid-elan779>3.0.co;2-u,Electrocatalytic Oxidation of Sulfhydryl Compounds at Ruthenium(III) Diphenyldithiocarbamate Modified Carbon Paste Electrode,1998,Balavenkataraman Nalini;Sangilimuthu Sriman Narayanan,Balavenkataraman Nalini,TRUE,1998/9/1,10,11,779,783,1040-0397;1521-4109,"An aqueous insoluble new redox mediator ruthenium(III)-diphenyldithiocarbamate has been used as a modifier to prepare a carbon paste electrode. The modified electrode was characterized by cyclic voltammetry by varying the pH of the medium and also the scan rate. The electrode was scanned between 0.0 V and +0.8 V in 0.1 M KNO3 medium. Anodic and cathodic peaks were observed at +0.38 V and +0.22 V, respectively, for a scan rate of 100 mV/s. The modified electrode is found to oxidize electrocatalytically cysteine and glutathione. Conditions such as pH and scan rate have been optimized for the determination of both compounds. Linear response for cysteine is in the range of 0.00�C15.20 mg/L, with a correlation coefficient (r), of 0.9992. Standard deviation for 10 repetitive determinations was found to be 0.0756. The linear range for glutathione is 0.00�C30.40 mg/L, with a value of 0.9995 for r, and the standard deviation is 0.1449. The stability and reproducibility of the electrode for the determination of cysteine and glutathione were also discussed. Hydrodynamic voltammogram was also recorded for the electrocatalytic oxidation of the sulfhydryl compounds. Amperometric determination and studies on the stability of the electrode for a period of 10 days were also carried out.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,50,20,FALSE,,closed,�绯ѧ;��ѧ������,"{'org_name': '������˹��ѧ', 'org_id': '037eb6bec46f9ab52958be9b56e86b81'}","{'id': 'j_1ca21d7ea7078a70cc85aecfa74c3c89', 'zh_title': 'Electrochemically Active Coordination Polymers: A Review', 'authors': 'A. S. Lytvynenko;S. V. 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Miessler', 'journal': 'Inorganic Chemistry', 'year': '1978'};{'id': 'j_96f99b8467d83d68dd95fcb155840f47', 'zh_title': 'Copper(II)-neocuproine as colour reagent for some biologically active thiols: Spectrophotometric determination of cysteine, penicillamine, glutathione, and 6-mercaptopurine', 'authors': 'Amir Besada;Nabil B. Tadros;Yousseff A. Gawargious', 'journal': 'Microchimica Acta', 'year': '1989'};{'id': 'j_fca3fec2cb9a2518cda7e22733882271', 'zh_title': 'Determination of cysteine and glutathione in plasma and blood by liquid chromatography with electrochemical detection using a chemically modified electrode containing cobalt phthalocyanine', 'authors': 'Mary Kim Halbert;Richard P. Baldwin', 'journal': 'Journal of chromatography', 'year': '1985'}","{'person_id': '2ad48f823e343b417bb212671734469c', 'orcid': ' ', 'name': 'Balavenkataraman Nalini', 'email': '', 'org_name': 'University of Madras', 'org_id': 'a1247a953b9cb3bdd755488c3904e545', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '141c22a7862f33272015663454461738', 'orcid': 'https://orcid.org/0000-0003-0519-4011', 'name': 'S. Sriman Narayanan', 'email': '', 'org_name': 'University of Madras', 'org_id': 'a1247a953b9cb3bdd755488c3904e545', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_faea4aa3a96abc17de85539bab63389e,10.1002/(sici)1521-4109(199809)10:12<803::aid-elan803>3.0.co;2-3,Recycling Systems Based on Screen-Printed Electrodes,1998,Fred Lisdat;Wah O. Ho;Ulla Wollenberger;Frieder W. Scheller;Tanja Richter;Ursula Bilitewski,Fred Lisdat,TRUE,1998/9/1,10,12,803,807,1040-0397;1521-4109,"Screen-printed enzyme electrodes sensitive to catecholamines were developed. The bioelectrocatalytic recycling systems investigated exploited the combination of laccase catalyzed catecholamine oxidation with the electrochemical reduction of the formed quinoic product or, alternatively, electrochemical oxidation of the catecholamine followed by quinoprotein glucose dehydrogenase (GDH) catalyzed reduction. Both systems allowed quantitation of nanomolar concentrations. The lower detection limit for dopamine was 50 nmol/L and 2 nmol/L for the laccase or GDH based system, respectively. The conditions for attaining the highest sensitivity were optimized. Relatively large oxygen fluctuations in solution can be tolerated without disturbing sensor performance. Good long-term stability can be provided for sensor operation and storage.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,25,22,FALSE,,closed,��ѧ������;�绯ѧ,"{'org_name': 'Institute of Biochemistry', 'org_id': '1fd7143c3116d132c152c137c3107ad4'};{'org_name': 'GBF PG ��Biosensors��, 38124 Braunschweig, Germany', 'org_id': '3ff446ccb7edcea44692948f23789298'}","{'id': 'j_ed2161d8ac59bf20762e59aedcd24360', 'zh_title': 'Multilayer immobilized reactors of enzymes of the same and different types using biotin-avidin bioaffinity binding.', 'authors': 'Toshio YAO;Youko NANJYO', 'journal': 'BUNSEKI KAGAKU', 'year': '2001'};{'id': 'j_8979ddb8f03338d365ff1ae5e7599349', 'zh_title': 'Amperometric immunosensor of Brucella abortus CE-protein antigen shows post-zone phenomena', 'authors': 'Ajay Kumar Gupta;Vepa Kameswara Rao;D.T. Selvam;Ashu Kumar;Rajeev Jain', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2014'};{'id': 'j_79222c9e2bf0b99c25e5f3fd01ee0a3d', 'zh_title': 'Enzymatic recycling for signal amplification: Improving microcystin detection with biosensors', 'authors': 'M��nica Camp��s;Maria G. Olteanu;Jean-Louis Marty', 'journal': 'Sensors and Actuators B-chemical', 'year': '2008'};{'id': 'j_084ca9cb7b40058b175d22389fc60136', 'zh_title': 'Amperometric Detection of Some Catechol Derivatives and o-aminophenol Derivative with Laccase Immobilized Electrode: Effect of Substrate Structure', 'authors': 'De Quan;Woonsup Shin', 'journal': 'Journal of The Korean Chemical Society', 'year': '2004'};{'id': 'j_71f774b2aff18f2967cfd12c03c4f96f', 'zh_title': 'FTO - an Electrode Material for the Stable Electrochemical Determination of Dopamine', 'authors': 'Gero G?bel;Anja Talke;Fred Lisdat', 'journal': 'Electroanalysis', 'year': '2017'};{'id': 'j_720f578a8f75ea1fea32c0d2b08eccea', 'zh_title': 'Atomic force microscopy as a novel pharmacological tool11Abbreviations: AFM, atomic force microscope; SEMs, scanning electron microscopes; and SNP, single nucleotide polymorphism.', 'authors': 'Ricardo de Souza Pereira', 'journal': 'Biochemical pharmacology', 'year': '2001'};{'id': 'j_18538ca966b35fcc01b99b03dce992fe', 'zh_title': 'Characterization of an amperometric laccase electrode covalently immobilized on platinum surface', 'authors': 'De Quan;Yousung Kim;Woonsup Shin', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2004'};{'id': 'j_4ffd0598891a82f5e1f2b9e1b3295e6b', 'zh_title': 'Development of a cellobiose dehydrogenase modified electrode for amperometric detection of diphenols', 'authors': 'Annika Lindgren;Tautgirdas Ruzgas;Lo Gorton;Leonard Stoica;Anton Ciucu', 'journal': 'The Analyst', 'year': '1999'};{'id': 'j_062d38ca53731420ad314ad7e3f26bc4', 'zh_title': 'Comparison of different carbon ink based screen-printed electrodes towards amperometric immunosensing', 'authors': 'V. K. Rao;M. K. Sharma;P. Pandey;K. Sekhar', 'journal': 'World Journal of Microbiology and Biotechnology', 'year': '2006'};{'id': 'j_d95d9e75c18d59a8c7da226523a94d2b', 'zh_title': 'Chip-based biosensor for the detection of low adrenaline concentrations to support adrenal venous sampling', 'authors': 'Denise Molinnus;Gabriel Hardt;Larissa K?ver;Holger S. Willenberg;Jens-Christian Kr?ger;Arshak Poghossian;Michael Keusgen;Michael J. Sch?ning', 'journal': 'Sensors and Actuators B: Chemical', 'year': '2018'};{'id': 'j_663fa4f9a154b5d6783c76f84c1323a4', 'zh_title': 'Nucleic Acid-Promoted Electron Transfer to Cytochrome c', 'authors': 'F. Lisdat;B. Ge;B. Krause;A. Ehrlich;H. Bienert;F. W. Scheller', 'journal': 'Electroanalysis', 'year': '2001'};{'id': 'j_ff34334cb74dbcae39dda09bd6d405cf', 'zh_title': 'Bioelectrocatalysis-based application of quinoproteins and quinoprotein-containing bacterial cells in biosensors and biofuel cells', 'authors': 'Tokuji Ikeda;Kenji Kano', 'journal': 'Biochimica et biophysica acta', 'year': '2003'};{'id': 'j_9a9c524e6d38c142bb92c7b003ac57a3', 'zh_title': 'Optimisation of the composition of a screen-printed acrylate polymer enzyme layer with respect to an improved selectivity and stability of enzyme electrodes', 'authors': 'G.A.M. Mersal;M. Khodari;U. Bilitewski', 'journal': 'Biosensors & bioelectronics', 'year': '2004'};{'id': 'j_f9f7925663f6d054cbffd3407bc4ef0e', 'zh_title': 'Application of cellulose-based self-assembled tri-enzyme system in a pseudo-reagent-less biosensor for biogenic catecholamine detection', 'authors': ""Mikhail L. Rabinovich;Liliya G. Vasil'chenko;Karen N. Karapetyan;Galina P. Shumakovich;Olga P. Yershevich;Roland Ludwig;Dietmar Haltrich;Yitzhak Hadar;Yuri P. Kozlov;Alexander I. Yaropolov"", 'journal': 'Biotechnology journal', 'year': '2007'};{'id': 'j_20dae420a7a9d796d659b283bb3ffbdc', 'zh_title': 'Immunoassays using enzymatic amplification electrodes', 'authors': 'Frieder W. Scheller;Ulla  Wollenberger;G  Christian;Axel  Warsinke;Alexander  Makower;Frank F. Bier', 'year': '2002'};{'id': 'j_2aeb37b55ddafd9b313cc9dce90f1829', 'zh_title': 'Cellobiose Dehydrogenase: A Versatile Catalyst for Electrochemical Applications', 'authors': 'Roland Ludwig;Wolfgang Harreither;Federico Tasca;Lo Gorton', 'journal': 'Chemphyschem : a European journal of chemical physics and physical chemistry', 'year': '2010'};{'id': 'j_c12b11a24895edd172ee1bc4ce821c34', 'zh_title': 'A disposable biosensor based on immobilization of laccase with silica spheres on the MWCNTs-doped screen-printed electrode', 'authors': 'Yuanting Li;Li Zhang;Meng Li;Zhigang Pan;Dawei Li', 'journal': 'CHEMISTRY CENTRAL JOURNAL', 'year': '2012'};{'id': 'j_7dd888eda94f1ad705c085a577e402e6', 'zh_title': 'PQQ-GDH �C Structure, function and application in bioelectrochemistry', 'authors': 'Fred Lisdat', 'journal': 'Bioelectrochemistry', 'year': '2020'};{'id': 'j_5aa6ec3bffc09c67e5cf096c47975fe4', 'zh_title': 'GDH biosensor based off-line capillary immunoassay for alkylphenols and their ethoxylates', 'authors': 'A Rose;C Nistor;J Emn��us;D Pfeiffer;U Wollenberger', 'journal': 'Biosensors & bioelectronics', 'year': '2002'};{'id': 'j_b37532cae6559e0a070e27cb8c0703a0', 'zh_title': 'Amperometric biosensor based on coupling aminated laccase to functionalized carbon nanotubes for phenolics detection', 'authors': 'Abdelmageed M. Othman;Ulla Wollenberger', 'journal': 'International Journal of Biological Macromolecules', 'year': '2020'};{'id': 'j_e857c95bbc8e51fa18beffd31189a26c', 'zh_title': 'Catalytic and Molecular Properties of the Quinohemoprotein Tetrahydrofurfuryl Alcohol Dehydrogenase from\n            Ralstonia eutropha\n            Strain Bo', 'authors': 'Grit Zarnt;Thomas Schra?der;Jan R. Andreesen', 'journal': 'Journal of Bacteriology', 'year': '2001'};{'id': 'j_a558bcb454f8735b9ec80ad46747f56f', 'zh_title': 'Analytical Techniques for Clinical Chemistry (Methods and Applications) || Biosensors for Drug Analysis', 'authors': 'Caroli, Sergio; Z��ray, Gyula ', 'year': '2012'};{'id': 'j_a4c51deff5dc31ce2b1f5ce2d95062a6', 'zh_title': 'Enzymatic and Electrophoretic Methods for Carbohydrate Determination using Microsystems', 'authors': 'Gaber Ahmed Mahmoud Mersal', 'year': '2004'};{'id': 'j_3ec5cd687a8e056e15f9110c65326119', 'zh_title': 'LACCASE-BASED SCREEN PRINTED ELECTRODE FOR AMPEROMETRIC DETECTION OF PHENOLIC COMPOUNDS', 'authors': 'Renato S. Freire;Nelson Duran;Joseph Wang;Lauro T. Kubota', 'journal': 'Analytical Letters', 'year': '2002'};{'id': 'j_ca9072f5cf4bd07aaa0fa47a14403636', 'zh_title': 'Amperometric Immunosensor for the Detection of Vibrio cholerae O1 Using Disposable Screen-printed Electrodes', 'authors': 'Vepa K. RAO;Mukesh K. SHARMA;Ajay K. GOEL;Lokendra SINGH;Krishnamurthi SEKHAR', 'journal': 'Analytical Sciences', 'year': '2006'}","{'id': 'j_4fb78c2e3f6a0825b33ba2c9eed4855c', 'zh_title': 'Highly-sensitive measurement of hydroquinone with an enzyme electrode', 'authors': 'Fumio Mizutani;Soichi Yabuki;Michihiko Asai', 'journal': 'Biosensors and Bioelectronics', 'year': '1991'};{'id': 'j_2b77a5288136c794f2f144b2abe87f78', 'zh_title': 'Effect of General Microdialysis-Induced Depletion on Extracellular Dopamine', 'authors': 'Patrick M. Sam;J. B. Justice', 'journal': 'Analytical Chemistry', 'year': '1996'};{'id': 'j_7233f54067896886ac090eb9cbed0658', 'zh_title': 'Biosensor based on an enzyme modified electrode for highly-sensitive measurement of polyphenols', 'authors': 'Arkadi Eremenko;Alexander Makower;Wen Jin;Petra R��ger;Frieder Scheller', 'journal': 'Biosensors & bioelectronics', 'year': '1995'};{'id': 'j_8bc6c23cf0e22ced203a50e41dda8de3', 'zh_title': 'Laccase', 'authors': 'A. I. Yaropolov;O. V. Skorobogat��ko;S. S. Vartanov;S. D. Varfolomeyev', 'journal': 'Applied Biochemistry and Biotechnology', 'year': '1994'};{'id': 'j_2ba292f16fb116f259b98c888443abf0', 'zh_title': 'Effects of pretreatments and modifiers on electrochemical properties of carbon paste electrodes', 'authors': 'Qijin Chi;Wolfgang G?pel;Tautgirdas Ruzgas;Lo Gorton;Peter Heiduschka', 'journal': 'Electroanalysis', 'year': '1997'};{'id': 'j_07018c251fe11d8d0f8b3148f6ccf6b9', 'zh_title': 'Carbon paste electrodes modified with enzymes, tissues, and cells', 'authors': 'L. Gorton', 'journal': 'Electroanalysis', 'year': '1995'};{'id': 'j_b334f662f8f5642cb56cd794a7e8e7d6', 'zh_title': 'Restriction and functional changes of dopamine release in rat striatum from young adult and old rats', 'authors': 'Dobromir Dobrev;Erika Bergstr??er;Hans-Dieter Fischer;Klaus Andreas', 'journal': 'Mechanisms of Ageing and Development', 'year': '1995'};{'id': 'j_68543236236f769629ff82a9c0423963', 'zh_title': 'Frontiers in Biosensorics II || Enzymatic substrate recycling electrodes', 'authors': 'Scheller, F. W.; Schubert, F.; Fedrowitz, J. ', 'journal': 'EXS', 'year': '1996'};{'id': 'j_7e17f3e62c9644a790af3c98f2d30c95', 'zh_title': 'Determination of p-aminophenol and catecholamines at picomolar concentrations based on recycling enzyme amplification', 'authors': 'A.L. Ghindilis;A. Makower;C.G. Bauer;F.F. Bier;F.W. Scheller', 'journal': 'Analytica Chimica Acta', 'year': '1995'};{'id': 'j_53f1d7923acb41582796c1d0d6594952', 'zh_title': 'The structure and function of fungal laccases', 'authors': 'C. F. Thurston', 'journal': 'Microbiology', 'year': '1994'};{'id': 'j_1e33f1176154c9df62db72bd2b91153e', 'zh_title': 'Real-Time Measurement of Electrically Evoked Extracellular Dopamine in the Striatum of Freely Moving Rats', 'authors': 'Paul A. Garris;John R. C. Christensen;George V. Rebec;R. Mark Wightman', 'journal': 'Journal of Neurochemistry', 'year': '2002'};{'id': 'j_0a129582959dd54a276bc63161cd4948', 'zh_title': 'Quinoprotein glucose dehydrogenase modified carbon paste electrode for the detection of phenolic compounds', 'authors': 'Ulla Wollenberger;Barbara Neumann', 'journal': 'Electroanalysis', 'year': '1997'};{'id': 'j_836c8da61f17bd886c3a56687f7e3c0d', 'zh_title': 'Catecholamine detection using enzymatic amplification', 'authors': 'F. Lisdat;U. Wollenberger;A. Makower;H. H?rtnagl;D. Pfeiffer;F.W. Scheller', 'journal': 'Biosensors & bioelectronics', 'year': '1997'};{'id': 'j_dc92f4350b758d711284229f47050dbd', 'zh_title': 'Quinoproteins: enzymes containing the quinonoid cofactor pyrroloquinoline quinone, topaquinone or tryptophan-tryptophan quinone', 'authors': 'Johannis A. DUINE', 'journal': 'European journal of biochemistry', 'year': '1991'};{'id': 'j_aa3b44c47a320905c5d6dc0cbc720bf1', 'zh_title': 'An Electrochemical Method for Making Enzyme Microsensors. Application to the Detection of Dopamine and Glutamate', 'authors': 'Serge Cosnier;Christophe Innocent;Laurence Allien;Serge Poitry;Marco Tsacopoulos', 'journal': 'Analytical Chemistry', 'year': '1997'};{'id': 'j_ff2ebb72ea0af201c1f5cf893d278ee9', 'zh_title': 'Chemically Amplified Voltammetric Enzyme Electrodes for Oxidizable Pharmaceuticals', 'authors': 'Thea J. Moore;G. Gina. Nam;Leonard C. Pipes;Louis A. Coury', 'journal': 'Analytical Chemistry', 'year': '1994'};{'id': 'j_b47820080bf08a72f2821789e7e14c50', 'zh_title': 'Enzyme-based chemically amplified flow-injection determination of catechol and catecholamines using an immobilized tyrosinase reactor and l-ascorbic acid', 'authors': 'Yasushi Hasebe;Kenichiro Takamori;Shunichi Uchiyama', 'journal': 'Analytica Chimica Acta', 'year': '1993'};{'id': 'j_63300c31aadfc7cf442d12e3bf86d3eb', 'zh_title': 'Polyethyleneimine in immobilization of biocatalysts', 'authors': 'Raman Bahulekar;N.R. Ayyangar;Surendra Ponrathnam', 'journal': 'Enzyme and microbial technology', 'year': '1991'};{'id': 'j_767c40cf0454ab35099641072b6eb2e2', 'zh_title': 'Carbon film based ring-disk and split-disk dual electrodes as detectors for microbore liquid chromatography', 'authors': 'Osumu Niwa;Musao Morita;Bruce P. Solomon;Peter T. Kissinger', 'journal': 'Electroanalysis', 'year': '1996'};{'id': 'j_3f6c24b21fe45f47f97b508bc87ff2f9', 'zh_title': 'An enzymatic amplification cycle for high sensitive immunoassay', 'authors': 'Frank F Bier;Eva Ehrentreich-F?rster;Alexander Makower;Frieder W Scheller', 'journal': 'Analytica Chimica Acta', 'year': '1996'};{'id': 'j_585fc8302ed445fb25d3db6ccfba22f0', 'zh_title': 'A glucose sensor fabricated by the screen printing technique', 'authors': 'R Nagata', 'journal': 'Biosensors & bioelectronics', 'year': '1995'};{'id': 'j_145387d0baa4da88c8d51efbe2db3b6b', 'zh_title': 'Development of ultraviolet-polymerizable enzyme pastes: bioprocess applications of screen-printed L-lactate sensors', 'authors': 'Ingrid Rohm;Meike Genrich;Wendy Collier;Ursula Bilitewski', 'journal': 'The Analyst', 'year': '1996'}","{'person_id': '8eb330fc172fd56e3e4b34215f3d5492', 'orcid': ' ', 'name': 'Ursula Bilitewski', 'email': '', 'org_name': 'GBF PG ��Biosensors��, 38124 Braunschweig, Germany', 'org_id': ' ', 'author_num': 6, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '9752865788dc2e9e29c4d9890b1e6a15', 'orcid': ' ', 'name': 'Fred Lisdat', 'email': '', 'org_name': 'University of Potsdam', 'org_id': 'f13fb63244472af7ce9e5d0238438ef9', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '2e470a9959a922ee4d704cc0c5e48b61', 'orcid': ' ', 'name': 'Tanja Richter', 'email': '', 'org_name': 'GBF PG ��Biosensors��, 38124 Braunschweig, Germany', 'org_id': ' ', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '342edc0e0429ce97dd0548d6413526cf', 'orcid': ' ', 'name': 'Wah On Ho', 'email': '', 'org_name': 'University of Potsdam', 'org_id': 'f13fb63244472af7ce9e5d0238438ef9', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'd59225e895077cdd139fa3da11420550', 'orcid': 'https://orcid.org/0000-0002-7088-8928', 'name': 'Ulla Wollenberger', 'email': '', 'org_name': 'University of Potsdam', 'org_id': 'f13fb63244472af7ce9e5d0238438ef9', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '157198759aa9ff59cbfdfa01b69ced37', 'orcid': 'https://orcid.org/0000-0002-6797-2133', 'name': 'Frieder W. Scheller', 'email': '', 'org_name': 'University of Potsdam', 'org_id': 'f13fb63244472af7ce9e5d0238438ef9', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_39337023912cf4314b60d099663af023,10.1002/(sici)1521-4109(199810)10:13<891::aid-elan891>3.0.co;2-h,Preparation of a Composite Film Electrode Containing 12-Tungstosilicic Acid and Its Electrocatalytic Reduction for Nitrite,1998,Shaoqin Liu;Zhong Shi;Shaojun Dong,Shaoqin Liu,TRUE,1998/10/1,10,13,891,896,1040-0397;1521-4109,"A novel organic-inorganic composite film was formed by attaching Keegin-type heteropolyanion, SiW12O404- (devoted briefly as SiW12), on a glassy carbon electrode derivatized by 4-aminophenyl group. The composite film has an ionic bonding character between SiW12 and the surface amino group, which greatly improves the Blm stability and exhibits a more reversible electrochemical behavior. The modified electrode offers an excellent and stable electrocatalytic response for the reduction of nitrite. Possible mechanism was provided for the reaction of nitrite with SiW12O404-/aminophenyl composite film.",Materials Science,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,33,46,FALSE,,closed,�绯ѧ;��ѧ������,{},"{'id': 'j_210e6fc224b286c83d2e52a35d4c5f27', 'zh_title': 'Electrochemically Assisted Covalent Modification of Carbon Electrodes', 'authors': 'Alison J. Downard', 'journal': 'Electroanalysis', 'year': '2000'};{'id': 'j_37995a927ed7d88d715eb9d5df2a2165', 'zh_title': 'Electrochemical characterization of glassy carbon electrodes modified with hybrid inorganic-organic single-layer of ��-Keggin type polyoxotungstates', 'authors': 'Helena M. Carapu?a;M. Salete Balula;Ana Paula Fonseca;Ana M. V. 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Nadjo', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1988'};{'id': 'j_bef6a49eaf61672e93589fe3d5daf5de', 'zh_title': 'Hybridization of various conducting polymers with heteropoyyanious : conductivity, electrochemical and electrocatalytic properties', 'authors': 'G. Bidan;M. Lapkowski;J.P. Travers', 'journal': 'Synthetic Metals', 'year': '1989'};{'id': 'j_f59346953d3924482873bc6ba588d908', 'zh_title': 'Synthesis of polypyrrole and polythiophene in aqueous solution of Keggin-type structure heteropolyanions', 'authors': 'Mieczyslaw ?apkowski;Gerard Bidan;Michel Fournier', 'journal': 'Synthetic Metals', 'year': '1991'};{'id': 'j_d6e4cc21bdebea9e9df3627c7ccefe92', 'zh_title': 'Surface functionalization with oxometallates entrapped in polymeric matrices', 'authors': 'B. Keita;D. Bouaziz;L. Nadjo;A. Deronzier', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1990'};{'id': 'j_80fb96b5a153a57d6d31c26ed1c3f878', 'zh_title': 'Study of the electrocatalytic reduction of nitrite with silicotungstic heteropolyanion', 'authors': 'Shaojun Dong;Xiaodan Xi;Min Tian', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1995'};{'id': 'j_f5d1931043f476abf6be8e9a00d245ae', 'zh_title': 'Electrocatalytic reduction of nitrite and nitric oxide to ammonia with iron-substituted polyoxotungstates', 'authors': 'James E. Toth;Fred C. Anson', 'journal': 'Journal of the American Chemical Society', 'year': '1989'};{'id': 'j_a4c26d42f4a3d90cc04c0c0578dde7ae', 'zh_title': 'Surface functionalization with oxometallates entrapped in polymeric matrices', 'authors': 'B. Keita;D. Bouaziz;L. Nadjo', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1990'};{'id': 'j_5de9f5e3f9c7dfd83ae5c972cfab9260', 'zh_title': 'Electrocatalysis by polyoxometalate/vbpolymer systems: Reduction of nitrite and nitric oxide', 'authors': 'B. Keita;A. Belhouari;L. Nadjo;R. Contant', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1995'};{'id': 'j_47f6ce728ab7fbc49d93b205efafd2c3', 'zh_title': 'Surface functionalization with oxometalates entrapped in polymeric matrices', 'authors': 'B. Keita;K. Essaadi;L. Nadjo', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1989'};{'id': 'j_198c9c284cc95950d8fb662f46d69eba', 'zh_title': 'Surface modifications with heteropoly and isopoly oxometalates', 'authors': 'B. Keita;L. 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+j_4a01ace35d3f180f8428a9ba5f3019dd,10.1002/(sici)1521-4109(199810)10:15<1005::aid-elan1005>3.0.co;2-r,Electrooxidation of Aliphatic Amines and Their Amperometric Detection in Flow Injection and Liquid Chromatography at a Nickel-Based Glassy Carbon Electrode,1998,Innocenzo G. Casella;Simona Rosa;Elio Desimoni,Innocenzo G. Casella,TRUE,1998/10/1,10,15,1005,1009,1040-0397;1521-4109,"The electrocatalytic oxidation of mono- and poly-amines was investigated in alkaline solutions at a nickel-based chemically modified glassy carbon electrode. ��-NiOOH exhibited electrocatalytic activity towards amines oxidation. FIA experiments were performed to test the electrode as an amperometric sensor. Under constant-potential amperometric mode (at 0.55 V vs. 4,0 M Ag/AgCl/Cl?), detection limits of all investigated analytes ranged within 1.2�C3.8 pmol (S/N = 3), and the linear dynamic range extended over three orders of magnitude above the detection limits. Chromatographic separations, performed by an ion moderated partition column in alkaline solutions equipped with the Ni-CME detector, allowed very simple quantitation of aliphatic amines, avoiding tedious and time-consuming derivatization processes or postcolumn addition procedures. The Ni-CME showed good temporal stability and appreciable sensitivity.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,29,39,FALSE,,closed,�绯ѧ;��ѧ������,"{'org_name': '������ѧ', 'org_id': 'bc5826427a6d0593648426e03325b35f'};{'org_name': '������������ѧ', 'org_id': '97c29078a38ddebea4b34c156dad6aaa'}","{'id': 'j_16a945b7cc8ab8244bd000022bf5c96c', 'zh_title': 'Nanoparticles of Ni(OH)2 embedded in chitosan membrane as electrocatalyst for non-enzymatic oxidation of glucose', 'authors': 'Aleksander Ciszewski;Izabela Stepniak', 'journal': 'Electrochimica Acta', 'year': '2013'};{'id': 'j_33ae615eba0f198322bc4f88e812d6b9', 'zh_title': 'Nitrogen Compounds: Ammonia, Amines and NO x', 'authors': 'Jonathan P. Metters;Craig E. 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Gonz��lez-Velasco', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1986'};{'id': 'j_62385e8b9e9a49ab86202917d38a7b0d', 'zh_title': 'Determination of polyamines and related compounds by reversed-phase high-performance liquid chromatography: Improved separation systems', 'authors': 'Nikolaus Seiler;Bernd Kn?dgen', 'journal': 'Journal of Chromatography B: Biomedical Sciences and Applications', 'year': '1985'};{'id': 'j_e2f4bacccb30beb4f76727c4f286e7e0', 'zh_title': 'Chemically modified electrodes in liquid chromatography detection: A review', 'authors': 'Richard P. Baldwin;Karsten N. Thomsen', 'journal': 'Talanta', 'year': '1991'};{'id': 'j_90a0d91c1a6b52397128473a530d9f12', 'zh_title': 'Amperometric detection of amines and amino acids in flow injection systems with a nickel oxide electrode', 'authors': 'Ben S. Hui;C.O. Huber', 'journal': 'Analytica Chimica Acta', 'year': '1982'};{'id': 'j_0f42f431ab947703ca749cc6541863fa', 'zh_title': 'Pulsed electrochemical detection at gold electrodes applied to monoamines and diamines following their chromatographic separation', 'authors': 'David A. Dobberpuhl;John C. Hoekstra;Dennis C. Johnson', 'journal': 'Analytica Chimica Acta', 'year': '1996'};{'id': 'j_305e201f1c4047b244ba5c85c0f6a12e', 'zh_title': 'On the oxidation of alcohols and amines at nickel oxide electrodes: Mechanistic aspects', 'authors': 'P.M. Robertson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1980'};{'id': 'j_a57b5e31143a14efb8211a611c7ad801', 'zh_title': 'Anion-exchange chromatography with electrochemical detection of alditols and sugars at a Cu2O�Ccarbon composite electrode', 'authors': 'Tommaso R.I Cataldi;Diego Centonze;Innocenzo G Casella;Elio Desimoni', 'journal': 'Journal of Chromatography A', 'year': '1997'};{'id': 'j_b8c7a5dccfbe1bb1c80052e2e78c5b5c', 'zh_title': 'The Direct Electrochemical Detection of Amino Acids at a Platinum Electrode in an Alkaline Chromatographic Effluent', 'authors': 'J. A. Polta;D. C. Johnson', 'journal': 'Journal of Liquid Chromatography & Related Technologies', 'year': '1983'};{'id': 'j_f807922f18d541cc294272142fafa92e', 'zh_title': 'Electrosynthesis at oxide coated electrodes Part 2. The oxidation of alcohols and amines at spinel anodes in aqueous base', 'authors': 'P. Cox;D. Pletcher', 'journal': 'Journal of Applied Electrochemistry', 'year': '1991'};{'id': 'j_1085748a1ee6d67b13fd2d2acd15854e', 'zh_title': 'The oxidation of organic compounds at a nickel anode in alkaline solution', 'authors': 'M. Fleischmann;K. Korinek;D. Pletcher', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1971'};{'id': 'j_eb3d0992549b1dfd229553d8ca2fd4b9', 'zh_title': 'The o-phthalaldehyde derivatives of amines for high-speed liquid chromatography/electrochemistry', 'authors': 'Laura A. Allison;Ginny S. Mayer;Ronald E. Shoup', 'journal': 'Analytical Chemistry', 'year': '1984'};{'id': 'j_e8c41f381cf6481573ccfe6f1e6e6199', 'zh_title': 'Electrocatalytic oxidation of methanol on a glassy carbon electrode modified by nickel hydroxide formed by ex situ chemical precipitation', 'authors': 'J. Taraszewska;G. Ros?onek', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1994'};{'id': 'j_aa14fe40eff163ce2803072118b39d5e', 'zh_title': 'Study of a cobalt-based surface modified glassy carbon electrode: Electrocatalytic oxidation of sugars and alditols', 'authors': 'Tommaso R. I. Cataldi;Antonio Guerrieri;Innocenzo G. Casella;Elio Desimoni', 'journal': 'Electroanalysis', 'year': '1995'};{'id': 'j_4c90b3f25f00f64ee95f2754de8b6cca', 'zh_title': 'Electrocatalysis and amperometric detection using an electrode made of copper oxide and carbon paste', 'authors': 'Youqin. Xie;Calvin O. Huber', 'journal': 'Analytical Chemistry', 'year': '1991'};{'id': 'j_407a0a346c594d32e1a3c43481cee6fd', 'zh_title': 'Increased Polyamine Concentrations in the Urine of Human Cancer Patients', 'authors': 'DIANE H. RUSSELL', 'journal': 'Nature New Biology', 'year': '1971'};{'id': 'j_a2dce9adc543786404e3668f7ac151be', 'zh_title': 'Investigation of thin-film ��- and ��-Ni(OH)2 electrodes in alkaline solutions', 'authors': 'W. Visscher;E. Barendrecht', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1983'};{'id': 'j_1b71bc3a8507ba19df79760df40dad46', 'zh_title': 'Polyamine determination in clinical laboratories by high-performance liquid chromatography', 'authors': 'T. Matsumoto;T. Tsuda;O. Suzuki', 'journal': 'Trends in Analytical Chemistry', 'year': '1990'};{'id': 'j_cf60d763f9335edceb37f7ff31c37453', 'zh_title': 'Metal-dispersed porous carbon films as electrocatalytic sensors', 'authors': 'Joseph Wang;Prasad V.A. Pamidi;Clifford L. Renschler;Christine White', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1996'};{'id': 'j_4c00c1219798988904c65d929f2aae8e', 'zh_title': 'The Physiology of Polyamines', 'authors': 'Uriel  Bachrach;Yair M. Heimer', 'year': '2021'};{'id': 'j_2ce8ec51e9b23fcdeb516a27e7cbe179', 'zh_title': 'Constant-potential amperometric detection of underivatized amino acids and peptides at a copper electrode', 'authors': 'Peifang. Luo;Fuzhen. Zhang;Richard P. Baldwin', 'journal': 'Analytical Chemistry', 'year': '1991'};{'id': 'j_db63abb53533f33697e2b471ca1bbc7c', 'zh_title': 'High-performance liquid chromatographic determination of free and total polyamines in human serum as fluorescamine derivatives', 'authors': 'Masaaki Kai;Tomofumi Ogata;Koichi Haraguchi;Yosuke Ohkura', 'journal': 'Journal of chromatography', 'year': '1979'};{'id': 'j_3b58631f9ec8cb876b2c7d3909cd30d8', 'zh_title': 'Simultaneous determination of amino acids and biogenic amines by reversed-phase high-performance liquid chromatography of the dabsyl derivatives', 'authors': 'Ingolf Krause;Annette Bockhardt;Herbert Neckermann;Thomas Henle;Henning Klostermeyer', 'journal': 'Journal of Chromatography A', 'year': '1995'};{'id': 'j_eef91bdce037defa95ab6ff7bc57d3fa', 'zh_title': 'In situ uv visible reflectance spectroscopic investigation of the nickel electrode-alkaline solution interface', 'authors': 'F. Hahn;B. Beden;M.J. Croissant;C. Lamy', 'journal': 'Electrochimica Acta', 'year': '1986'};{'id': 'j_30be12a061c8bb46c6348491607858be', 'zh_title': 'Electrochemical detector for liquid chromatographic determination of carbohydrates', 'authors': 'Javad M. Zadeii;Juan. Marioli;Theodore. Kuwana', 'journal': 'Analytical Chemistry', 'year': '1991'};{'id': 'j_1d6a11517e086745b2bb323afbb1cbce', 'zh_title': 'Flow Injection Analysis with Diamond Thin-Film Detectors', 'authors': 'Sharlene Jolley;Miles Koppang;Tom Jackson;Greg M. Swain', 'journal': 'Analytical Chemistry', 'year': '1997'};{'id': 'j_20835419ff70b15ec7b5c52cf7e8c47f', 'zh_title': 'Determination of carbohydrates in human serum by high performance liquid chromatography with electrochemical detection.', 'authors': 'Noriyuki WATANABE;Gotaro TODA;Yusei IKEDA', 'journal': 'Bunseki kagaku', 'year': '1984'};{'id': 'j_d7df9d02c2d09c215537762da3b62e51', 'zh_title': 'Oxygen evolution at nickel anodes in concentrated alkaline solution', 'authors': 'Marcella Cappadonia;Jiri Divisek;Thomas von der Heyden;Ulrich Stimming', 'journal': 'Electrochimica Acta', 'year': '1994'}","{'person_id': '6bfbac7b3d4f52dd1fa47e655b857d6d', 'orcid': ' ', 'name': 'Elio Desimoni', 'email': '', 'org_name': 'University of Milan', 'org_id': '57a00eae1b097fac368d8c918f0a8b44', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'f2cd67657d01788c6f032521915bfbfa', 'orcid': 'https://orcid.org/0000-0002-5442-041X', 'name': 'Innocenzo G. Casella', 'email': '', 'org_name': 'University of Basilicata', 'org_id': 'b984155354be611369465fed9b4eba69', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '42fa4e72e9204a6652669ad2a9c3acee', 'orcid': ' ', 'name': 'Simona Rosa', 'email': '', 'org_name': 'University of Basilicata', 'org_id': 'b984155354be611369465fed9b4eba69', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_d2dcc9176444867554445e40abbb514d,10.1002/(sici)1521-4109(199811)10:17<1163::aid-elan1163>3.0.co;2-i,Electrocatalysis and Amperometric Detection at a Ruthenium-Modified Indium-Hexacyanoferrate Film Electrode,1998,Tommaso R. I. Cataldi;Giuseppe E. De Benedetto;Alfonso Bianchini,Tommaso R. I. Cataldi,TRUE,1998/11/1,10,17,1163,1167,1040-0397;1521-4109,"The electrocatalytic activity of a glassy carbon electrode modified with electrochemically deposited indium(III)-hexacyanoferrate (InHCF) film, which has been subsequently cycled in a solution of ruthenium(III), is described. Although the resulting ruthenium-modified InHCF thin film electrode behaves in a manner analogous to the parent InHCF film, its stability was found to be greatly improved. Such a modified electrode was characterized, in acidic (pH 2) 0.5 M KCl solutions, by cyclic voltammetry and flow injection analysis. It exhibits a high catalytic activity for the electrooxidation of some inorganic and organic compounds of analytical interest, such as As(III), S2O2�C3, cysteine, and 2-furaldehyde. The analytical applicability of this novel ruthenium-modified InHCF film electrode for the amperometric detection in flowing streams is discussed. Repetitive sample injections with amperometric detection of thiosulfate at +0.8 V (vs. Ag/AgCl) as applied potential produced a stable response over 8 h of operation, making it very attractive for practical applications.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,28,0,FALSE,,closed,��ѧ������;�绯ѧ,"{'org_name': '������������ѧ', 'org_id': '97c29078a38ddebea4b34c156dad6aaa'}","{'id': 'j_da86dd0357cc66f0846fc09e9ed4a970', 'zh_title': 'Deposition of stable electroactive films of polynuclear cyanides onto silicon surface', 'authors': 'Ali Eftekhari', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2003'};{'id': 'j_8dde5c6ea6cbc1d23d7737b181a65d7c', 'zh_title': 'Electrocatalytic oxidation of l-cysteine with a stable copper�Ccobalt hexacyanoferrate electrochemically modified carbon paste electrode', 'authors': 'A. Abbaspour;A. Ghaffarinejad', 'journal': 'Electrochimica Acta', 'year': '2008'};{'id': 'j_6d0022c40586adfd20815905ed5c5ed3', 'zh_title': 'A mechanistic evaluation of the amperometric response of reduced thiols in quinone mediated systems', 'authors': 'Claire G. Stone;Marco F. Cardosi;James Davis', 'journal': 'Analytica Chimica Acta', 'year': '2003'};{'id': 'j_c0e29cc0fb890f71a749b21757c53fd7', 'zh_title': 'Electrochemical cysteine biosensor based on the selective oxidase�Cperoxidase activities of copper, zinc superoxide dismutase', 'authors': 'Pitchaimani Dharmapandian;Seenivasan Rajesh;Sarkkarai Rajasingh;Ayyappan Rajendran;Chandran Karunakaran', 'journal': 'Sensors and Actuators B-chemical', 'year': '2010'};{'id': 'j_9088daa07aae91f03b8fe543dc322fe9', 'zh_title': 'Characterisation of Prussian blue modified screen-printed electrodes for thiol detection', 'authors': 'Francesco Ricci;Fabiana Arduini;Aziz Amine;Danila Moscone;Giuseppe Palleschi', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2004'};{'id': 'j_62a8378f3572d95b933eb47d6f076e63', 'zh_title': 'Selective Potentiometric Measurement of Physiologically Significant Thiols', 'authors': 'Svetlana Gracheva;Alkmini Digga;Callum Livingstone;James Davis', 'journal': 'Electroanalysis', 'year': '2005'};{'id': 'j_9eff26000c523597568a65bfd86bc92d', 'zh_title': 'Ruthenium Hexacyanoferrate (III) Modified Glassy Carbon Electrode for Determination of Captopril', 'authors': 'I. A. R. B. Dias;W. M. Costa;P. Cervini;E. T. G. Cavalheiro;A. L. B. Marques', 'journal': 'Electroanalysis', 'year': '2016'};{'id': 'j_ff1ae62f1339fd137b21c299b672f555', 'zh_title': 'Direct detection of homocysteine and syntheses of lanthanide complexes as biosensors', 'authors': 'Weihua  Wang', 'year': '2006'};{'id': 'j_62aad2249faf90b19f8863ecd9700011', 'zh_title': 'Microelectrochemical electronic effects in two-layer structures of distinct Prussian blue type metal hexacyanoferrates', 'authors': 'Krzysztof Miecznikowski;Malgorzata Chojak;Wioleta Steplowska;MarcinA. Malik;PawelJ. Kulesza', 'journal': 'Journal of Solid State Electrochemistry', 'year': '2004'};{'id': 'j_63246df7468248b21a8be1a5a7fb0470', 'zh_title': 'Electrochemical Determination of Thiols: A Perspective', 'authors': 'Paul\u2005C. White;Nathan\u2005S. Lawrence;James Davis;Richard\u2005G. Compton', 'journal': 'Electroanalysis', 'year': '2002'};{'id': 'j_775f658a3a760c265640bde957cfb9ed', 'zh_title': 'Electrochemical Behavior of Gallium Hexacyanoferrate Film Directly Modified Electrode in a Cool Environment', 'authors': 'Ali Eftekhari', 'journal': 'Journal of The Electrochemical Society', 'year': '2004'};{'id': 'j_a06964e771c41c01d4886ecf97f14e68', 'zh_title': 'Rhodium stabilized Prussian Blue-modified graphite electrodes for H2O2 amperometric detection', 'authors': 'Laura Mure?an;Graziella Liana Turdean;Ionel C?t?lin Popescu', 'journal': 'Journal of Applied Electrochemistry', 'year': '2007'};{'id': 'j_f127a5b1f9dda316b987106ccc30c143', 'zh_title': 'Low Frequency Sound for Effective Sensitivity Enhancement in Staircase Voltammetry', 'authors': '?. Mikkelsen;K. Schr?der', 'journal': 'Analytical Letters', 'year': '2000'};{'id': 'j_7f780b5e89fd3714091dcdb80ce5340f', 'zh_title': 'Gelatin-immobilized metal complexes: synthesis and applications', 'authors': 'Oleg V. Mikhailov', 'journal': 'Journal of Coordination Chemistry', 'year': '2008'};{'id': 'j_83ab5d4f8867c4f4c7582e98c229b871', 'zh_title': 'Electrochemical nitrate biosensor based on poly(pyrrole�Cviologen) film�Cnitrate reductase�Cclay composite', 'authors': 'S. Cosnier;S. Da Silva;D. Shan;K. Gorgy', 'journal': 'Bioelectrochemistry', 'year': '2008'};{'id': 'j_1c9f9ed4265b53485e8f178c65a7c552', 'zh_title': 'Analytical determination of homocysteine: a review', 'authors': 'O Nekrassova', 'journal': 'Talanta', 'year': '2003'};{'id': 'j_aac33ed956a3c12261f33c771cb250a5', 'zh_title': 'Countercation intercalation and kinetics of charge transport during redox reactions of nickel hexacyanoferrate', 'authors': 'Marcin A Malik;Pawel J Kulesza;Roberto Marassi;Francesco Nobili;Krzysztof Miecznikowski;Silvia Zamponi', 'journal': 'Electrochimica Acta', 'year': '2004'};{'id': 'j_e70e629337191b83318c499b413a001e', 'zh_title': 'Silver-Selective Electrode Based on a Direct Modified Electrode Silver Hexacyanoferrate(II) Film', 'authors': 'Ali Eftekhari', 'journal': 'Analytical Letters', 'year': '2000'};{'id': 'j_b9e87b108b72c177ea50b774a05f2cd2', 'zh_title': 'Electrode Modified with Cobalt Cyclohexylbutyrate for the Determination of Low Molecular Weight Thiol Group Bearing Compounds Using Catalytic Stripping Voltammetry', 'authors': 'Petr Jakubec;Vladimir Halouzka;Jana Skopalova;Jan Hrbac', 'journal': 'Electroanalysis', 'year': '2010'};{'id': 'j_edc96ecc4e06989763746fafad87663e', 'zh_title': 'Ruthenium Oxide Hexacyanoferrate Modified Electrode for Hydrogen Peroxide Detection', 'authors': 'Thiago\u2005R.\u2005L.\u2005C. Paix?o;Mauro Bertotti', 'journal': 'Electroanalysis', 'year': '2008'};{'id': 'j_d6e228888cc08129350a540ce857b548', 'zh_title': 'Ormosil Encapsulated Pyrroloquinoline Quinone-Modified Electrochemical Sensor for Thiols', 'authors': 'Kanchan?A. Joshi;Prem?C. Pandey;Wilfred Chen;Ashok Mulchandani', 'journal': 'Electroanalysis', 'year': '2004'};{'id': 'j_270a73daac7e35511ff2901af47a0afb', 'zh_title': 'Electrocatalytic oxidation of deoxyguanosine on a glassy carbon electrode modified with a ruthenium oxide hexacyanoferrate film', 'authors': 'Thiago R.L.C. Paix?o;Mauro Bertotti', 'journal': 'Electrochimica Acta', 'year': '2007'};{'id': 'j_a224d616f232069b59144698076874b5', 'zh_title': 'Preparation and characterization of a new carbon paste electrode based on ketotifen�Chexacyanoferrate', 'authors': 'G. Tabrizivand;R. E. Sabzi;K. Farhadi', 'journal': 'Journal of Solid State Electrochemistry', 'year': '2005'};{'id': 'j_cc620fcbe69eca1a45aa61e86cb33cd6', 'zh_title': 'Enhanced stability and electrocatalytic activity of a ruthenium-modified cobalt�Chexacyanoferrate film electrode', 'authors': 'Tommaso R.I Cataldi;Giuseppe De Benedetto;Alfonso Bianchini', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1999'};{'id': 'j_614367c360e37129da7757a1475bd926', 'zh_title': 'Hexacyanoferrate ion adsorbed on propylpyridiniumsilsesquioxane polymer film-coated SiO2/Al2O3: use in an electrochemical oxidation study of cysteine', 'authors': 'S��rgio T Fujiwara;Christiana A Pess?a;Yoshitaka Gushikem', 'journal': 'Electrochimica Acta', 'year': '2003'};{'id': 'j_af130d05b0364f5f2c9f260085e8332f', 'zh_title': 'Determination of Arsenic in Water Samples Treated with Ozone', 'authors': 'Marija Vukovi?;?eljka Filipovi?-Kova?evi?;Nata?a Ribi?i?;Laszlo Sipos', 'journal': 'Journal of Environmental Science and Health, Part A', 'year': '2004'};{'id': 'j_491cef55cc112d5a9d13c80fab6f6818', 'zh_title': 'SILVER HEXACYANOFERRATE(II) FILM DIRECT MODIFIED ELECTRODE AS AMPEROMETRIC SENSOR FOR THE DETERMINATION OF SILVER', 'authors': 'Ali Eftekhari', 'journal': 'Analytical Letters', 'year': '2001'};{'id': 'j_c7233c82ac210d88a9e8a8b68ab043e4', 'zh_title': 'Analysis by X-ray photoelectron spectroscopy of ruthenium stabilised polynuclear hexacyanometallate film electrodes', 'authors': 'Giuseppe E. De Benedetto;Maria R. Guascito;Rosanna Ciriello;Tommaso R.I. Cataldi', 'journal': 'Analytica Chimica Acta', 'year': '2000'}",{},"{'person_id': '2bc1364a4baf06a7e7b74a5a69d53c43', 'orcid': 'https://orcid.org/0000-0003-4811-8959', 'name': 'Tommaso R. I. Cataldi', 'email': '', 'org_name': 'University of Basilicata', 'org_id': 'b984155354be611369465fed9b4eba69', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '7304beda1fdc6dd2cd4c93aee376e7ff', 'orcid': ' ', 'name': 'Alfonso Bianchini', 'email': '', 'org_name': 'University of Basilicata', 'org_id': 'b984155354be611369465fed9b4eba69', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '4f4662eff9a2557d984ba4c0683daa71', 'orcid': 'https://orcid.org/0000-0002-0832-5470', 'name': 'Giuseppe E. De Benedetto', 'email': '', 'org_name': 'University of Basilicata', 'org_id': 'b984155354be611369465fed9b4eba69', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_f0fad99a90c13d08a5009bb8656dd5c8,10.1002/(sici)1521-4109(199811)10:17<1168::aid-elan1168>3.0.co;2-p,Electrochemical Preparation and Characterization of an Anion-Permselective Composite Membrane for Sensor Technology,1998,Paolo Ugo;Ligia Maria Moretto;Gian Antonio Mazzocchin;Paolo Guerriero;Charles R. Martin,Paolo Ugo,TRUE,1998/11/1,10,17,1168,1173,1040-0397;1521-4109,"We describe the construction and characterization of an ultrathin-film composite membrane (UTFCM) prepared by electropolymerization of a thin coating of poly1-methyl-3(pyrrole-1-ylmethyl) pyridinium] (poly-MPP), across the surface of a microporous support membrane. The ion-exchange properties of the UTFCM were investigated by testing the permeability of the membrane for electroactive anions and cations. Both polycarbonate and alumina microporous membranes were employed as support membranes. The alumina supports proved superior in that thinner anion-permselective poly-MPP coatings could be obtained. These thinner coatings allowed for fast permeation of anions while still blocking the passage of cations. Alumina�Cpoly-MPP composite membranes were used to construct a nitrate sensor in which the UTFCM separates the analyte solution from an internal sensing solution which contained the enzyme nitrate reductase and an electrocatalyst (methyl viologen).",Materials Science,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,12,14,FALSE,,closed,�绯ѧ;��ѧ������,"{'org_name': 'ICTIMA/CNR, Area della Ricerca, Padova, Italy', 'org_id': '8b539f26f14d9b9cdd874ce832a33e15'};{'org_name': '��������������ѧ', 'org_id': '8c40ea9b82f2750ebd8823d056c1611b'};{'org_name': ""Ca' Foscari University of Venice"", 'org_id': '93a4d9696934c07339089db7a6cdccc7'}","{'id': 'j_f1a637e9073fdf91ef46d5c7755513ea', 'zh_title': 'Electrochemically modulated transport through a conducting polymer membrane', 'authors': 'Donald L Pile;Andrew C Hillier', 'journal': 'Journal of Membrane Science', 'year': '2002'};{'id': 'j_1f4eb31d9e0197f48e1b8b97334ddb91', 'zh_title': 'Electrochemical Manipulation of Aligned Block Copolymer Templates', 'authors': 'Sherri S. Y. Liu;Sabine Ludwigs', 'journal': 'Macromolecular Rapid Communications', 'year': '2019'};{'id': 'j_525dfb7404d2e9c145ee287643d9abcb', 'zh_title': 'An In Situ Copper Plated Boron-Doped Diamond Microelectrode Array for the Sensitive Electrochemical Detection of Nitrate', 'authors': 'Sarah Ward-Jones;Craig\u2005E. Banks;Andrew\u2005O. Simm;Li Jiang;Richard\u2005G. Compton', 'journal': 'Electroanalysis', 'year': '2005'};{'id': 'j_83ab5d4f8867c4f4c7582e98c229b871', 'zh_title': 'Electrochemical nitrate biosensor based on poly(pyrrole�Cviologen) film�Cnitrate reductase�Cclay composite', 'authors': 'S. Cosnier;S. Da Silva;D. Shan;K. Gorgy', 'journal': 'Bioelectrochemistry', 'year': '2008'};{'id': 'j_8ba0059825bcecfbe8ca867416d364a3', 'zh_title': 'Biomolecule immobilization on electrode surfaces by entrapment or attachment to electrochemically polymerized films. A review', 'authors': 'Serge Cosnier', 'journal': 'Biosensors & bioelectronics', 'year': '1999'};{'id': 'j_a067184fdffcd96042b34e5b2719fa43', 'zh_title': 'Improvement of Amperometric Sensor Used for Determination of Nitrate with Polypyrrole Nanowires Modified Electrode', 'authors': 'Xiu-ling Zhang;Ji-xiao Wang;Zhi Wang;Shi-chang Wang', 'journal': 'SENSORS', 'year': '2005'};{'id': 'j_f807be81610faebbf662debb80afb571', 'zh_title': 'Single-Pore Membranes Gated by Microelectromagnetic Traps', 'authors': 'Joseph R. Basore;Nickolay V. Lavrik;Lane A. Baker', 'journal': 'Advanced Materials', 'year': '2010'};{'id': 'j_77fcd6f6ab7bee1e4987c96220142cad', 'zh_title': 'Electrochemistry of phenothiazine and methylviologen biosensor electron-transfer mediators at nanoelectrode ensembles', 'authors': 'Barbara Brunetti;Paolo Ugo;Ligia M Moretto;Charles R Martin', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2000'};{'id': 'j_f98efb1abab7f1c0953ae1dc2bc1402a', 'zh_title': 'Synthesis and electrochemistry of novel conducting dendrimeric star copolymers on poly(propylene imine) dendrimer', 'authors': 'Abd Almonam Abd Alsalam Baleg', 'year': '2011'};{'id': 'j_66ed292405999f36ebf09e46b9502690', 'zh_title': 'A Simple Means to Immobilize Enzyme into Conducting Polymers via Entrapment', 'authors': 'Jun Chen;Bjo?rn Winther-Jensen;Carol Lynam;Orawan Ngamna;Simon Moulton;Weimin Zhang;Gordon G. Wallace', 'journal': 'Electrochemical and Solid-State Letters', 'year': '2006'};{'id': 'j_5943a53b5d2d642d68e3fd4aadbe39d9', 'zh_title': 'Electrochemically polymerized composites of conducting poly(p-ABSA) and flavins (FAD, FMN, RF) films and their use as electrochemical sensors: A new potent electroanalysis of NADH and NAD+', 'authors': 'S. Ashok Kumar;Shen-Ming Chen', 'journal': 'Sensors and Actuators B-chemical', 'year': '2007'};{'id': 'j_79f19ac814ec1a7b787eb49c7a7a9da3', 'zh_title': 'Handbook of Electrochemistry || Template deposition of metals', 'authors': 'Ugo, Paolo', 'year': '2007'}","{'id': 'j_97407f1fdef851123bfd6bea17bb338c', 'zh_title': 'Electronically conductive anion exchange polymers based on polypyrrole', 'authors': 'Huanyu Mao;Peter G. Pickup', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1989'};{'id': 'j_c75d6e28dc58f96ba37eb4e55a89c407', 'zh_title': 'Polypyrrole-based anion-exchange polymers', 'authors': 'Huanyu Mao;Peter G. Pickup', 'journal': 'The Journal of Physical Chemistry', 'year': '1992'};{'id': 'j_2e8b506d45b926ae1b87b61cbee1e5aa', 'zh_title': 'Nitrate Biosensor Based on the Ultrathin-Film Composite Membrane Concept', 'authors': 'Ligia M. Moretto;Paolo Ugo;Micaela Zanata;Paolo Guerriero;Charles R. Martin', 'journal': 'Analytical Chemistry', 'year': '1998'};{'id': 'j_930633b19385cb115d3cde6a1f18b2f9', 'zh_title': 'Composite hollow fiber membranes for gas separation: the resistance model approach', 'authors': 'Jay M.S. Henis;Mary K. Tripodi', 'journal': 'Journal of Membrane Science', 'year': '1981'};{'id': 'j_b06d1976974515a4699441fd55b3b678', 'zh_title': 'Poly-(3-methylpyrrole-4-carboxylic acid): an electronically conducting ion-exchange polymer', 'authors': 'Peter G. Pickup', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1987'};{'id': 'j_0e1caf8cad70ed0ee8bdda8282433fb8', 'zh_title': 'Ion-exchange voltammetry of trace mercury(II) at glassy carbon electrodes coated with a cationic polypyrrole derivative. Application to pore-waters analysis', 'authors': 'Paolo Ugo;Laura Sperni;Ligia M. Moretto', 'journal': 'Electroanalysis', 'year': '1997'};{'id': 'j_d77983642eac669f4257df988299b468', 'zh_title': 'Composite membranes from photochemical synthesis of ultrathin polymer films', 'authors': 'Chao Liu;Charles R Martin', 'journal': 'Nature', 'year': '1991'};{'id': 'j_1f6850216af90ee5e84b1045b05a154a', 'zh_title': 'Gas transport in electronically conductive polymers', 'authors': 'Wenbin Liang;Charles R. Martin', 'journal': 'Chemistry of Materials', 'year': '1991'};{'id': 'j_27c516960930555509dfe1b260d7f705', 'zh_title': 'Electrochemical Preparation and Analytical Applications of Ultrathin Overoxidized Polypyrrole Films', 'authors': 'ChenChan. Hsueh;Anna. Brajter-Toth', 'journal': 'Analytical Chemistry', 'year': '1994'};{'id': 'j_80b47d08bd318914b29dbed7b8aebf69', 'zh_title': 'Overoxidized polypyrrole films:  a model for the design of permselective electrodes', 'authors': 'Allan. Witkowski;Anna. Brajter-Toth', 'journal': 'Analytical Chemistry', 'year': '1992'};{'id': 'j_921a26294f758ca0fca952c99e461fb9', 'zh_title': 'Electrochemical synthesis of ultrathin film composite membranes', 'authors': 'Chao Liu;Wen-Janq Chen;Charles R. Martin', 'journal': 'Journal of Membrane Science', 'year': '1992'};{'id': 'j_ccb8b9d87198d32d4a57d2977f831339', 'zh_title': 'Electrochemical synthesis of ultrathin-film composite membranes', 'authors': 'Chao Liu;Mark W. Espenscheid;Wen Janq Chen;Charles R. Martin', 'journal': 'Journal of the American Chemical Society', 'year': '1990'};{'id': 'j_5fb82d4d3f231ac27f814ba61c31ab7a', 'zh_title': 'Alkylammonium and pyridinium group-containing polypyrroles, a new class of electronically conducting anion-exchange polymers', 'authors': 'S. Cosnier;A. Deronzier;J.-C. Moutet;J.F. Roland', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1989'};{'id': 'j_ee53ea149705461e795710a7b2fac17a', 'zh_title': 'Chemical sensors based on ultrathin-film composite membranes - a new concept in sensor design', 'authors': 'Barbara. Ballarin;Charles J. Brumlik;Del R. Lawson;Wenbin. Liang;Leon S. Van Dyke;Charles R. Martin', 'journal': 'Analytical Chemistry', 'year': '1992'}","{'person_id': 'a91e4126e9f97fa585756baab065b2f6', 'orcid': 'https://orcid.org/0000-0002-4127-6957', 'name': 'Ligia Maria Moretto', 'email': '', 'org_name': ""Ca' Foscari University of Venice"", 'org_id': '93a4d9696934c07339089db7a6cdccc7', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'e5928812ef3808315c21c024970640c5', 'orcid': 'https://orcid.org/0000-0003-4803-4755', 'name': 'Paolo Ugo', 'email': '', 'org_name': ""Ca' Foscari University of Venice"", 'org_id': '93a4d9696934c07339089db7a6cdccc7', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '4a593741f5d505780f546caf3c437366', 'orcid': 'https://orcid.org/0000-0002-7577-1817', 'name': 'Charles R. Martin', 'email': '', 'org_name': 'Colorado State University', 'org_id': 'a1374351d90e07bb67952787c612d2e9', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '05f0f438f03a2db5764daf7f1c186bb4', 'orcid': 'https://orcid.org/0000-0002-5721-8786', 'name': 'Paolo Guerriero', 'email': '', 'org_name': 'ICTIMA/CNR, Area della Ricerca, Padova, Italy', 'org_id': ' ', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '99c84f7c73e252be2db0752ae5b85f21', 'orcid': ' ', 'name': 'Gian Antonio Mazzocchin', 'email': '', 'org_name': ""Ca' Foscari University of Venice"", 'org_id': '93a4d9696934c07339089db7a6cdccc7', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_c31f1a1171ee2637a0fbd94665be6a08,10.1002/(sici)1521-4109(199811)10:17<1188::aid-elan1188>3.0.co;2-l,"Sonoelectrochemically Enhanced Electrocatalytic Processes: The Pb(IV) Catalyzed Cleavage of 1,2-cis-Cyclopentanediol at Graphite and Glassy Carbon Electrodes",1998,Frank Marken;Richard G. Compton;Jonathan E. H. Buston;Mark G. Moloney,Frank Marken,TRUE,1998/11/1,10,17,1188,1192,1040-0397;1521-4109,"In this study, the electrocatalytic (EC��-type) carbon�Ccarbon bond cleavage of cis-1,2-cyclopentanediol by Pb(IV) benzoate generated in situ is shown to be possible under extremely fast mass transport conditions. Based on the comparison of data obtained experimentally and by the numerical simulation of sonoelectrochemical limiting currents with commercially available software (Digisim 2.0), excellent agreement with the theoretical model of a planar diffusion layer can be achieved and allows the straightforward prediction and optimization of sonoelectrochemcial processes involving homogeneously coupled chemical steps. The ultrasonic cleaning of the electrode surface strongly affects the Pb deposition process at glassy carbon and basal plane pyrolytic graphite electrodes, but is not efficient enough to prevent electrode fouling which accompanies the anodic process at positive potentials. The overall rate and efficiency of the electrochemical process is enhanced due to fast mass transport in the presence of ultrasound.",Materials Science,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,11,22,FALSE,,closed,�绯ѧ;��ѧ������,{},"{'id': 'j_5d7afde2fdcc61aa904c90e8ed3ea245', 'zh_title': 'Lead Dioxide Deposition and Electrocatalysis at Highly Boron-Doped Diamond Electrodes in the Presence of Ultrasound', 'authors': 'Andrew J. Saterlay;Shelley J. Wilkins;Katherine B. Holt;John S. Foord;Richard G. Compton;Frank Marken', 'journal': 'Journal of The Electrochemical Society', 'year': '2001'};{'id': 'j_f1cfd08b1ee2ec79bd1d21fc7bdd9c77', 'zh_title': 'High-frequency sonoelectrochemical processes: mass transport, thermal and surface effects induced by cavitation in a 500 kHz reactor', 'authors': 'F.Javier Del Campo;B.A. Coles;F. Marken;R.G. Compton;E. Cordemans', 'journal': 'Ultrasonics Sonochemistry', 'year': '1999'};{'id': 'j_92df295c401b096625c91d25ef30e078', 'zh_title': 'Sonoelectrochemistry at platinum and boron-doped diamond electrodes: achieving ��fast mass transport�� for ��slow diffusers��', 'authors': 'Katherine B Holt;Javier Del Campo;John S Foord;Richard G Compton;Frank Marken', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2001'};{'id': 'j_51a952799329f7ae793070e88ef07081', 'zh_title': 'Ultrasonic effects on electroorganic processes', 'authors': 'Mahito Atobe;Yoshifumi Kado;Tsutomu Nonaka', 'journal': 'Ultrasonics sonochemistry', 'year': '2000'};{'id': 'j_23f97d3558e607fe5a3565840c2f95cd', 'zh_title': 'Sonoelectrochemical and sonochemical effects of cavitation: correlation with interfacial cavitation induced by 20 kHz ultrasound', 'authors': 'Joanna L. Hardcastle;Jon C. Ball;Qi Hong;Frank Marken;Richard G. Compton;Steven D. Bull;Stephen G. Davies', 'journal': 'Ultrasonics sonochemistry', 'year': '2000'};{'id': 'j_c2aa2cb017aae2b34d545e9441d16d4c', 'zh_title': 'Hydrodynamic Rocking Disc Electrode Study of the TEMPO-mediated Catalytic Oxidation of Primary Alcohols', 'authors': 'Sunyhik D. Ahn;Adrian C. Fisher;Antoine Buchard;Steven D. Bull;Alan M. Bond;Frank Marken', 'journal': 'Electroanalysis', 'year': '2016'};{'id': 'j_a975324bf1cacf95e2c4b810bac25923', 'zh_title': 'Redox properties of the calcium chelator Fura-2 in mimetic biomembranes', 'authors': 'Rubin Gulaboski;Carlos M. Pereira;M. Natalia D.S. Cordeiro;A. Fernando Silva;Markus Hoth;Ivan Bogeski', 'journal': 'Cell calcium', 'year': '2008'};{'id': 'j_14799b7353d5226ce31fd6f474a1df5c', 'zh_title': 'Current topics on sonoelectrochemistry', 'authors': 'Jos�� Gonz��lez-Garc��a;Mar��a Deseada Esclapez;Pedro Bonete;Yolanda Vargas Hern��ndez;Lu��s Gaete Garret��n;Ver��nica S��ez', 'journal': 'Ultrasonics', 'year': '2010'};{'id': 'j_844816321e77349ac03fe9704017e8d5', 'zh_title': 'Ultrasonic effects on electroorganic processes. 21. A limiting current study on electroreduction of benzophenone in the presence of a proton donor', 'authors': 'Mahito Atobe;Takayuki Tonoi;Tsutomu Nonaka', 'journal': 'Ultrasonics Sonochemistry', 'year': '2002'};{'id': 'j_071252ee543f4f7cb889ffc5eec2a5f1', 'zh_title': 'Relevant developments and new insights on Sonoelectrochemistry', 'authors': 'J. Gonz��lez-Garc��a;V. S��ez;M.D. Esclapez;P. Bonete;Y. Vargas;L. Gaete', 'journal': 'Physics Procedia', 'year': '2010'};{'id': 'j_6104a17eb94b5267a93ada18d1ea9ea0', 'zh_title': 'The effect of sonication on glass electrodes', 'authors': 'Z GALBACS;H LANGENHOVE;G GALBACS', 'journal': 'Talanta', 'year': '2005'}","{'id': 'j_858980291c5d7ae4ef2be462a967b570', 'zh_title': 'Sonoelectrochemistry: transient cavitation in acetonitrile in the neighbourhood of a polarized electrode', 'authors': 'Jiri Klima;Claude Bernard;Chantal Degrand', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1995'};{'id': 'j_acc74b947cf287484bd14e301b256e2f', 'zh_title': 'Ultrasonically Induced Cavitation Studies of Electrochemical Passivity and Transport Mechanisms: I . Theoretical', 'authors': 'Stephen A. Perusich;Richard C. Alkire', 'journal': 'Journal of The Electrochemical Society', 'year': '1991'};{'id': 'j_06d682b85f248ef7fe470374531d9957', 'zh_title': 'Sonoelectrochemical processes: A review', 'authors': 'Richard G. Compton;John C. Eklund;Frank Marken', 'journal': 'Electroanalysis', 'year': '1997'};{'id': 'j_62ae78593c48618e7f88387066435832', 'zh_title': 'The relationship between mass transport to channel and rotating disk electrodes', 'authors': 'Patrick R. Unwin;Richard G. Compton', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1988'};{'id': 'j_51f066dcfc34ad4f6af3c20617d91e48', 'zh_title': 'Comparison of hydrodynamic voltammetry implemented by sonication to a rotating disk electrode', 'authors': 'Carolynne. Hagan;Louis A. Coury', 'journal': 'Analytical Chemistry', 'year': '1994'};{'id': 'j_55a67e3ab22dadf3351c2ce74da7f3d5', 'zh_title': 'Voltammetry in the Presence of Ultrasound:\u2009 Sonovoltammetric Detection of Cytochrome c under Very Fast Mass Transport Conditions', 'authors': 'H. Allen O. Hill;Yasue Nakagawa;Frank Marken;Richard G. Compton', 'journal': 'The Journal of Physical Chemistry', 'year': '1996'};{'id': 'j_0e22d7ef236c538415289004853cae2a', 'zh_title': 'Measurement of Heterogeneous Electron Transfer Rate Constants for Fe(H2O)62+/3+ during Sonication of Suspensions of Alumina Particles', 'authors': 'Nanette A. Madigan;Louis A. Coury', 'journal': 'Analytical Chemistry', 'year': '1997'};{'id': 'j_9f273e0c960940fbdc8637c025f9958d', 'zh_title': 'Sonoelectrochemistry in Highly Resistive Media:Mass Transport Effects', 'authors': 'Frank Marken;Dario L. Goldfarb;Richard G. Compton', 'journal': 'Electroanalysis', 'year': '1998'};{'id': 'j_ada8081ae419d93f5ae1cb665393e219', 'zh_title': 'A study of the effect of ultrasound on mass transport to a microelectrode', 'authors': 'Peter R. Birkin;Susana Silva-Martinez', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1996'};{'id': 'j_bdef849d6231104749f56b561f5a5491', 'zh_title': 'Determination of the charge-transfer kinetics of ferrocene at platinum and vitreous carbon electrodes by potential steps chronocoulometry', 'authors': 'Michael Sharp', 'journal': 'Electrochimica Acta', 'year': '1983'};{'id': 'j_ab1cd7c29ea68e43bea12f84a6c294f0', 'zh_title': 'Determination of Heterogeneous Electron Transfer Kinetics in the Presence of Ultrasound at Microelectrodes Employing Sampled Voltammetry', 'authors': 'Peter R. Birkin;Susana Silva-Martinez', 'journal': 'Analytical Chemistry', 'year': '1997'};{'id': 'j_4b9ec500b0e4a4e82b45940e58c67422', 'zh_title': 'Voltammetry in the Presence of Ultrasound. Sonovoltammetry and Surface Effects', 'authors': 'Richard G. Compton;John C. Eklund;Stephen D. Page;Giles H. W. Sanders;Jonathan Booth', 'journal': 'The Journal of Physical Chemistry', 'year': '1994'};{'id': 'j_b8adff696ad3a465b3b40dcf19756d4b', 'zh_title': 'Quantifying sonochemistry: Casting some light on a ��black art��', 'authors': 'T.J. Mason;J.P. Lorimer;D.M. Bates', 'journal': 'Ultrasonics', 'year': '1992'};{'id': 'j_510fef0982aa19d5c9597597cde7243d', 'zh_title': 'Voltammetry in the presence of ultrasound: the limit of acoustic streaming induced diffusion layer thinning and the effect of solvent viscosity', 'authors': 'Frank Marken;Richard P. Akkermans;Richard G. Compton', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1996'};{'id': 'j_3c6a780a7919f8ff45a501142603b2c4', 'zh_title': 'Voltammetry in the presence of ultrasound: A novel sono-electrode geometry', 'authors': 'John C. Eklund;Frank Marken;David N. Waller;Richard G. Compton', 'journal': 'Electrochimica Acta', 'year': '1996'};{'id': 'j_674d0245baa0d602582f7df57692c6b0', 'zh_title': 'Voltammetry in the presence of ultrasound: mass transport effects', 'authors': 'R. G. Compton;J. C. Eklund;S. D. Page;T. J. Mason;D. J. Walton', 'journal': 'Journal of Applied Electrochemistry', 'year': '1996'};{'id': 'j_9de1c3df3190156e219726d0c3f58e46', 'zh_title': 'Mechanistic Aspects of the Electrocatalytic Oxidative Cleavage of 1,2-Diols by Electrogenerated Pb(IV)', 'authors': 'Frank Marken;Adam M. Squires;John A. Alden;Richard G. Compton;Jonathan E. H. Buston;Mark G. Moloney', 'journal': 'The Journal of Physical Chemistry B', 'year': '1998'};{'id': 'j_381037682efde3f29972415e2cc3ed21', 'zh_title': 'Topics in Current Chemistry] Electrochemistry I Volume 142 || Organic syntheses with electrochemically regenerable redox systems', 'authors': 'Steckhan, E.', 'journal': 'Topics in Current Chemistry', 'year': '1987'};{'id': 'j_b732da528653c5e41b50d4f418365a8d', 'zh_title': 'Voltammetry in the presence of ultrasound: surface and solution processes in the sonovoltammetric reduction of nitrobenzene at glassy carbon and gold electrodes', 'authors': 'Frank Marken;Sunita Kumbhat;Giles H.W. Sanders;Richard G. Compton', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1996'};{'id': 'j_e3556b741c192ec6dc62612d7cf5c7b0', 'zh_title': 'Homogeneous and heterogeneous catalytic redox processes: solution and solid state voltammetry of lead complexes at carbon electrodes', 'authors': 'Frank Marken;Wayne M. Leslie;Richard G. Compton;Mark G. Moloney;Edward Sanders;Stephen G. Davies;Steven D. Bull', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1997'};{'id': 'j_f26d5119907a1a3d8ec305701a168c7b', 'zh_title': 'EFFECTS OF ULTRASONICALLY INDUCED CAVITATION ON ELECTROCHEMICAL PROCESSES.CELL GEOMETRY AND FREQUENCY EFFECTS', 'authors': 'Abdallah  Benahcene;Christian  Petrier;G.  Reverdy;P.  Labbe', 'journal': 'New Journal of Chemistry', 'year': '1995'};{'id': 'j_b7da6d72bcb5463f4a91945880206ed1', 'zh_title': 'Organolead(IV) Tricarboxylates, New Reagents for Organic Synthesis', 'authors': 'JT Pinhey', 'journal': 'Australian Journal of Chemistry', 'year': '1991'}","{'person_id': '1170f920fa51ecb7ec789129d51b79c3', 'orcid': 'https://orcid.org/0000-0003-3177-4562', 'name': 'Frank Marken', 'email': '', 'org_name': 'University of Oxford', 'org_id': '3a70ae72ba4b6c7ec0952eac36e5311c', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'a9ac87b4dc2028ac0670346783239c97', 'orcid': 'https://orcid.org/0000-0002-4440-3632', 'name': 'Mark G. Moloney', 'email': '', 'org_name': 'University of Oxford', 'org_id': '3a70ae72ba4b6c7ec0952eac36e5311c', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '7e04e87d9438f0b7c98de8e7bd267998', 'orcid': 'https://orcid.org/0000-0001-9841-5041', 'name': 'Richard G. Compton', 'email': '', 'org_name': 'University of Oxford', 'org_id': '3a70ae72ba4b6c7ec0952eac36e5311c', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '7a08154a66499ec1b6358eb6a3263f0b', 'orcid': ' ', 'name': 'Jonathan E. H. Buston', 'email': '', 'org_name': 'University of Oxford', 'org_id': '3a70ae72ba4b6c7ec0952eac36e5311c', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_71fbbf11ee383f796a7744ac36b70a92,10.1002/(sici)1521-4109(199812)10:18<1217::aid-elan1217>3.0.co;2-x,Analytical Applications of Silica-Modified Electrodes -A Comprehensive Review,1999,Alain Walcarius,Alain Walcarius,TRUE,1999/2/9,10,18,1217,1235,1040-0397,"This article aims to review the electroanalytical applications of chemically modified electrodes involving silica and silica-containing matrices. After a brief introduction to silica chemistry, the implication of pure and grafted silicas in electrochemistry, as well as that of the silica-based materials originating from the sol-gel technology, will be discussed. The interest of silica-modified electrodes (SiO2-MEs) with respect to electroanalysis will be pointed out by means of several examples. In the last five years, successful applications of SiO2-MEs have been achieved. Among them, silica grafted with inorganic films or organic moieties was successfully applied to the selective preconcentration or the electrocatalytic detection of various analytes. Also, the ability of the sol-gel chemistry to encapsulate enzymes within a silica matrix without preventing its activity was exploited in the development of new amperometric biosensors. These promising fields are thought to lead to significant advances in the near future, because of the explosive growth in both the synthesis of novel mesoporous organically-modified silica-based materials and the huge development of sol-gel chemistry in tailoring and construction of new modified electrodes.",Materials Science,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,203,269,FALSE,,closed,�绯ѧ;��ѧ������,{},{},{},"{'person_id': 'c76d7eaccde8d53d35f5a325c667ba16', 'orcid': 'https://orcid.org/0000-0003-3633-200X', 'name': 'Alain Walcarius', 'email': '', 'org_name': ""Laboratoire de Chimie Physique et Microbiologie pour l'Environnement"", 'org_id': 'c79ed3a594873aa31a90f0eafce4da5d', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_dde50524acb1132d08586929c50943cf,10.1002/(sici)1521-4109(199812)10:18<1237::aid-elan1237>3.0.co;2-t,Electrocatalysis with a Dirhodium-Substituted Polyoxometalate Anchored in a Xerogel-Based Composite: Application to the Oxidation of Methionine and Cystine at Physiological pH,1998,Mark E. Tess;James A. Cox,Mark E. Tess,TRUE,1998/12/1,10,18,1237,1240,1040-0397;1521-4109,"Replacing a tungsten oxide group of phosphotungstic acid with a Rh(II) acetate dimer yielded a species, Rh2POM, that catalyzed the electrochemical oxidation of L-methionine (L-Met), L-cystine, and As(III). The electrocatalytic activity of Rh2POM was greater than that of the simple Rh(II) acetate dimer in homogeneous solution. A conducting carbon-composite electrode (CCE) comprising Rh2POM and carbon powder in a silica matrix prepared by sol-gel chemistry was catalytically active over the pH range 2�C10. The CCEs produced voltammetric responses toward L-Met and L-cystine that were pH independent over the above range and were stable for at least 4 months under dry storage. If passivated, the catalytic activity was reproducibly generated by polishing. For example, a relative standard deviation of 2.9 % (5 points) was obtained when the surface was polished between cyclic voltammetric experiments on 5.0 mM L-Met at pH 7.4. A least squares fit of flow injection amperometric data obtained over the range 5�C156 ��M L-Met (7 points) yielded the following: slope, 0.85 ��A mM?1; intercept, 0.05 ��A; and r / 0.995. The detection limit was 2.3 ��M.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,27,16,FALSE,,closed,��ѧ������;�绯ѧ,{},"{'id': 'j_9a5fe90868463a9d641b0fdab7ee8dee', 'zh_title': 'Selective and Sensitive Electrochemical Sensor for L-Methionine at Physiological pH Using Functionalized Triazole Polymer Film Modified Electrode', 'authors': 'S. Brillians Revin;S. Abraham John', 'journal': 'Electroanalysis', 'year': '2012'};{'id': 'j_c396e4b22bc35bb72a42175fc1b83bf3', 'zh_title': 'Exciting new directions in the intersection of functionalized sol�Cgel materials with electrochemistry', 'authors': 'Alain Walcarius;Daniel Mandler;James A. 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Ajith Wijayawardhana;H. Brian Halsall;William R. Heineman;Eskil  Sahlin;Amy T. Beisler;Stephen G. Weber;Mats  Sandberg;Steven E. Rosenwald;Werner G. Kuhr;James  Cox;Long  Cheng', 'year': '2002'};{'id': 'j_96314d33deea98021885a25052c2bde8', 'zh_title': 'Electrocatalytic oxidation of small organic molecules in acid medium: Enhancement of activity of noble metal nanoparticles and their alloys by supporting or modifying them with metal oxides', 'authors': 'Pawel J. Kulesza;Izabela S. Pieta;Iwona A. Rutkowska;Anna Wadas;Diana Marks;Karolina Klak;Leszek Stobinski;James A. Cox', 'journal': 'Electrochimica Acta', 'year': '2013'};{'id': 'j_156caef86f7adbae1f347d98e90c8436', 'zh_title': 'Electrochemical strategies for the label-free detection of amino acids, peptides and proteins', 'authors': 'Gr?goire Herzog;Damien W. M. 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Pope;Ulrich Kortz', 'journal': 'Angewandte Chemie', 'year': '2012'};{'id': 'j_e0d5ca031a627dd8638b3fa886d5bd34', 'zh_title': 'Colloidal-gold cysteamine-modified carbon paste electrodes as suitable electrode materials for the electrochemical determination of sulphur-containing compoundsApplication to the determination of methionine', 'authors': 'L AGUI', 'journal': 'Talanta', 'year': '2004'};{'id': 'j_e3209a68c07bc531c805a0fe2df7edb3', 'zh_title': 'Modification of electrodes with nanostructured films containing dirhodium-substituted polyoxometalates', 'authors': 'Anna M. Kijak;Robbyn K. Perdue;James A. Cox', 'journal': 'Journal of Solid State Electrochemistry', 'year': '2004'};{'id': 'j_74581bae2be79d270b08978c2e9ac58a', 'zh_title': 'Oxidation of a Phospholipid at an Electrode Modified with an Electrochemically Formed Sol-Gel Film Doped with Cyclodextrin', 'authors': 'Michelle\u2005M. Wandstrat;Wolfgang\u2005U. Spendel;Gilbert\u2005E. Pacey;James\u2005A. 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Pope;Ulrich Kortz', 'journal': 'Angewandte Chemie', 'year': '2012'};{'id': 'j_3d19a4313735e4eca21e29b2993b781a', 'zh_title': 'Electrocatalytic Oxidation of Sulfur Containing Amino Acids at Renewable Ni-Powder Doped Carbon Ceramic Electrode: Application to Amperometric DetectionL-Cystine,L-Cysteine andL-Methionine', 'authors': 'Abdollah Salimi;Mahmoud Roushani', 'journal': 'Electroanalysis', 'year': '2006'};{'id': 'j_ad3954dee4894f9be76d353006eb888b', 'zh_title': 'MATERIALS AND MODIFICATION OF ELECTRODES FOR THE DETECTION OF BIOLOGICAL MOLECULES', 'authors': 'Michelle Marie Wandstrat', 'year': '2006'};{'id': 'j_78e374246a44a09f17b345b2c3dd5b8a', 'zh_title': 'Interaction of K7Fe3+P2W17O62H2 with supported bilayer lipid membranes on platinum electrode', 'authors': 'Jianguo Wang;Li Wang;Shaoqin Liu;Xiaojun Han;Weimin Huang;Erkang Wang', 'journal': 'Biophysical Chemistry', 'year': '2003'};{'id': 'j_cd32749438743dcd17231aae2889e1a7', 'zh_title': 'PMo12-Doped Carbon Ceramic Composite Electrode Based on Sol-Gel Chemistry and Its Electrocatalytic Reduction of Bromate', 'authors': 'Peng Wang;Xiangping Wang;Guoyi Zhu', 'journal': 'ELECTROANALYSIS', 'year': '2000'};{'id': 'j_b094ae66949cefb13c7c677f998f59d7', 'zh_title': 'Oxidation and flow-injection amperometric determination of 5-hydroxytryptophan at an electrode modified by electrochemically assisted deposition of a sol�Cgel film with templated nanoscale pores', 'authors': 'David Ranganathan;Silvia Zamponi;Mario Berrettoni;B. 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Anson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1991'};{'id': 'j_6a5319b62553311b3772c255d835b828', 'zh_title': 'Electrochemical oxidation and determination of heparin at electrodes modified with ruthenium oxide or copper oxide', 'authors': 'Krzysztof Lewinski;Yun Hu;Charles C. Griffin;James A. Cox', 'journal': 'Electroanalysis', 'year': '1997'};{'id': 'j_c65b98f18a2bfe6bc4a3e87dfbb68333', 'zh_title': 'Electrocatalytic oxidation and determination of arsenic(III) on a glassy carbon electrode modified with a thin film of mixed-valent ruthenium(III, II) cyanide', 'authors': 'James A. Cox;Pawel J. Kulesza', 'journal': 'Analytical Chemistry', 'year': '1984'};{'id': 'j_8702e3f5c7ee87d22cf5ee81c1aa8b03', 'zh_title': 'Inert Metal-Modified, Composite Ceramic?Carbon, Amperometric Biosensors:\u2009 Renewable, Controlled Reactive Layer', 'authors': 'S. Sampath;O. 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Lev', 'journal': 'Analytical Chemistry', 'year': '1994'};{'id': 'j_6cb74ce9b46a64270374ebe2ecdebdd5', 'zh_title': 'Voltammetry in the absence of a solution phase with solids prepared by a sol-gel process as the electrolytes: facilitation of an electrocatalytic anodic process in the presence of ammonia', 'authors': 'James A. Cox;Kathryn S. Alber;Mark E. Tess;T.E. Cummings;Waldemar Gorski', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1995'};{'id': 'j_dd3274c28f7e34b819040419674fc01d', 'zh_title': 'Oxidation of N-nitrosamines at a ruthenium-based modified electrode in aqueous solutions', 'authors': 'Waldemar Gorski;James A. Cox', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1995'}","{'person_id': 'dac0ffe2549d42b03080d25ef4754d83', 'orcid': ' ', 'name': 'Mark E. 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+j_f4da90023574ab561a8051ad399914f2,10.1002/(sici)1521-4109(199812)10:18<1261::aid-elan1261>3.0.co;2-m,"Electrocatalytic Oxidation of NADH in Flow Analysis by Graphite Electrode Modified with 2,6-Dichlorophenolindophenol Salts",1998,Ageliki B. Florou;Mamas I. Prodromidis;Miltiades I. Karayannis;Stella M. Tzouwara-Karayanni,Ageliki B. Florou,TRUE,1998/12/1,10,18,1261,1268,1040-0397;1521-4109,"The preparation of a 2,6-dichlorophenolindophenol (DCPI) modified graphite electrode is described. DCPI was successfully immobilized by physical adsorption onto a plain graphite electrode (DCPI-CME) and onto graphite electrodes pretreated with lanthanum nitrate (DCPI-La-CME) or thorium nitrate (DCPI-Th-CME). The electrochemical behavior of DCPI-CME was extensively studied using cyclic voltammetry. The electrochemical redox reaction of DCPI was found to be fairly reversible at low coverage with Eo�� = +55 mV (vs. Ag/AgCl/3M KCl) at pH 6.5. A pKa value of 5.8 �� 0.1 for immobilized form of DCPI is determined from the intersection of the lines in the plot Eo�� vs. pH. The current Ip has a linear relationship with the scan rate up to 1200 mV s?1, which is indicative for very fast electron transfer kinetics. The calculated value of the standard rate constant is ko = 18 �� 4 s?1. No decrease of either the anodic or the cathodic current of the cyclic voltammogram was observed after 500 runs of successive sweeps. The influence of the morphology of the electrode surface on the electrochemical behavior of the DCPI-CME was studied and a mathematical model is proposed, which partly describes the dependence of the geometrical area of the electrode surface on the grid of the emery paper. The modified electrodes were mounted in a flow-injection manifold, poised at +60 mV (vs. Ag/AgCl/3M KCl) and a catalytic current due to the oxidation of NADH was observed reducing thus the oxidation overpotential of NADH for about 400 mV. Interference from various reductive species present in real samples was investigated. The repeatability was 1.2 % RSD (n = 10 for 0.1 mM NADH). The sensor showed good operational and storage stability.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,28,29,TRUE,,green,��ѧ������;�绯ѧ,"{'org_name': 'Լ�����ɴ�ѧ', 'org_id': 'ab2fb462dfcb874ec297aa9dc69ed3f5'}","{'id': 'j_cc5b4fcfd07ca2b8a6fe661126033607', 'zh_title': 'Electrochemical study of ferrocene intercalated vanadium pentoxide xerogel/polyvinyl alcohol composite films: Application in the development of amperometric biosensors', 'authors': 'Constantinos G. Tsiafoulis;Ageliki B. Florou;Pantelis N. Trikalitis;Thomas Bakas;Mamas I. Prodromidis', 'journal': 'Electrochemistry Communications', 'year': '2005'};{'id': 'j_2357ea1b7661c1eef70a1ce7e4b41b59', 'zh_title': 'Electrocatalytic Oxidation of NADH on Functionalized Graphene Modified Graphite Electrode', 'authors': 'Simson Prasanna Kumar;Revanasiddappa Manjunatha;C. 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Karayannis', 'journal': 'Electroanalysis', 'year': '2000'};{'id': 'j_491557e03188cadaab8d2b2a2646c012', 'zh_title': 'Comparative study of electron mediators used in the electrochemical oxidation of NADH', 'authors': 'Beatriu Prieto-Sim��n;Esteve F��bregas', 'journal': 'Biosensors & bioelectronics', 'year': '2004'};{'id': 'j_d55d85770b6964cbf5cfb5913d2e3bbe', 'zh_title': 'A Highly Selective Biosensor with Nanomolar Sensitivity Based on Cytokinin Dehydrogenase', 'authors': 'Faming Tian;Marta Greplov��;Ivo Fr��bort;Nicholas Dale;Richard Napier', 'journal': 'PLoS ONE', 'year': '2014'};{'id': 'j_981a6c62a5adfec7ede9e18bea2224ac', 'zh_title': 'Towards molecular electronic devices based on ��all-carbon�� wires', 'authors': 'Andrea Moneo;Alejandro Gonz��lez-Orive;S?ren Bock;Marta Fenero;I. Luc��a Herrer;David C. Milan;Matteo Lorenzoni;Richard J. Nichols;Pilar Cea;Francesc Perez-Murano;Paul J. 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Karayannis', 'journal': 'Electroanalysis', 'year': '2001'};{'id': 'j_2d9dfd008e9248247c1996ace00394e8', 'zh_title': 'Evaluation of different mediator-modified screen-printed electrodes used in a flow system as amperometric sensors for NADH', 'authors': 'B PRIETOSIMON;J MACANAS;M MUNOZ;E FABREGAS', 'journal': 'Talanta', 'year': '2007'};{'id': 'j_1c3c5e923b3201a67f1b5be0fbba1d69', 'zh_title': 'Electrocatalysis of sulphide with a cellulose acetate film bearing 2,6-dichlorophenolindophenol. Application to sewage using a fully automated flow injection manifold', 'authors': 'A Florou', 'journal': 'Talanta', 'year': '2000'};{'id': 'j_f127a5b1f9dda316b987106ccc30c143', 'zh_title': 'Low Frequency Sound for Effective Sensitivity Enhancement in Staircase Voltammetry', 'authors': '?. Mikkelsen;K. 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Efstathiou', 'journal': 'Analytica Chimica Acta', 'year': '2004'};{'id': 'j_ee04d23a9e3d7f21089a45fd8d3d5e32', 'zh_title': 'Protonation and electronic structure of 2,6-dichlorophenolindophenolate during reduction. A theoretical study including explicit solvent', 'authors': 'Michal Mal?ek;Luk��? Bu?insky;Zuzana Barbierikov��;Sandra Dorot��kov��;Dana Dvoranov��;Vlasta Brezov��;Peter Rapta;Stanislav Biskupi?', 'journal': 'Journal of Molecular Modeling', 'year': '2016'};{'id': 'j_16247bb0dbbe5112d11bd91d01b9cb07', 'zh_title': 'Photoelectrocatalytic determination of NADH in a flow injection system with electropolymerized methylene blue', 'authors': 'Yusuf Dilgin;Didem Giray Dilgin;Zekerya Dursun;H. ?smet G?k?el;Delia Gligor;Burcu Bayrak;Bensu Ertek', 'journal': 'Electrochimica Acta', 'year': '2011'};{'id': 'j_76c5564ef97fbaddfbc051e06a4eafe7', 'zh_title': 'Methylated Azopyridine as a New Electron Transfer Mediator for the Electrocatalytic Oxidation of NADH', 'authors': 'Afsaneh Safavi;Omran Moradlou;Mostafa Saadatifar', 'journal': 'Electroanalysis', 'year': '2010'};{'id': 'j_d7aed28b576ce29b3f3eec51aac82a7b', 'zh_title': 'Encyclopedia of Electrochemistry (Online) || Electrochemistry of NAD(P)              +              /NAD(P)H', 'authors': 'Bard, Allen J.', 'year': '2007'};{'id': 'j_ed492988fb860d1c5961177d42d649a5', 'zh_title': 'A multi-walled carbon nanotube/poly-2,6-dichlorophenolindophenol film modified carbon paste electrode for the amperometric determination of l-tyrosine', 'authors': ""Ozma J. D'Souza;Ronald J. Mascarenhas;Ashis K. Satpati;Irishi N. N. Namboothiri;Simon Detriche;Zineb Mekhalif;Joseph Delhalle"", 'journal': 'RSC Adv.', 'year': '2015'};{'id': 'j_ffde51a52715faf01b6ec9e5a805af09', 'zh_title': 'Electrochemical Regeneration of Oxidoreductases for Cell-free Biocatalytic Redox Reactions', 'authors': 'Frank Hollmann;Andreas Schmid', 'journal': 'Biocatalysis and Biotransformation', 'year': '2004'};{'id': 'j_a7f59a776e68e24e8da0df16ca98282b', 'zh_title': 'Flow electrochemical determination of ascorbic acid in real samples using a glassy carbon electrode modified with a cellulose acetate film bearing 2,6-dichlorophenolindophenol', 'authors': 'Ageliki B Florou;Mamas I Prodromidis;Miltiades I Karayannis;Stella M Tzouwara-Karayanni', 'journal': 'Analytica Chimica Acta', 'year': '2000'};{'id': 'j_577437ba419519fc7d9958a5908646ae', 'zh_title': 'Reagentless enzyme electrode for malate based on modified polymeric membranes', 'authors': 'Andrew Maines;Mamas I. Prodromidis;Stella M. Tzouwara-Karayanni;Miltiades I. Karayannis;David Ashworth;Pankaj Vadgama', 'journal': 'Analytica Chimica Acta', 'year': '2000'}","{'id': 'j_dd8f279a1b2c24203f74b1dcfeaa8bb3', 'zh_title': 'Redox polymers for electrocatalytic oxidation of NADH - A random block methyl-siloxane polymer containing meldola blue', 'authors': 'Bj?rn Persson;Hung Sui Lee;Lo Gorton;Terje Skotheim;Philip Bartlett', 'journal': 'Electroanalysis', 'year': '1995'};{'id': 'j_d3eb1f18e148994cc68ca1d39684667a', 'zh_title': 'New amperometric biosensor for citrate with mercury film electrode', 'authors': 'Satoshi Hikima;Kiyoshi Hasebe;Mitsuhiko Taga', 'journal': 'Electroanalysis', 'year': '1992'};{'id': 'j_de3599aa9071ecae95e25b459015757c', 'zh_title': 'Chemically modified electrodes for the electrocatalytic oxidation of nicotinamide coenzymes', 'authors': 'Lo Gorton', 'journal': 'Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry in Condensed Phases', 'year': '1986'};{'id': 'j_98251a435e8563121aacbf47d2633743', 'zh_title': 'Stability of catechol modified carbon electrodes for electrocatalysis of dihydronicotinamide adenine dinucleotide and ascorbic acid', 'authors': 'Chihiro. Ueda;Daniel Chi-Sing. Tse;Theodore. Kuwana', 'journal': 'Analytical Chemistry', 'year': '1982'};{'id': 'j_e181ef359288192542652df072ca7b4d', 'zh_title': 'Amperometric determination of L-malic acid in a flow injection analysis manifold using packed-bed enzyme reactors', 'authors': 'Mamas I. Prodromidis;Stella M. Tzouwara-Karayanni;Miltiades I. Karayannis;Pankaj Vadgama;Andrew Maines', 'journal': 'Analyst', 'year': '1996'};{'id': 'j_c73c94d82450be02aaea13da4922b8a5', 'zh_title': 'Adsorption and electrochemical oxidation behaviour of NADH at a clean platinum electrode', 'authors': 'Hans Jaegfeldt', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1980'};{'id': 'j_08e57423ff086e76ede660fae9c30916', 'zh_title': 'CHEMICAL SENSORS FOR INVIVO MONITORING', 'authors': 'Apf  Turner', 'year': '1993'};{'id': 'j_893910572f41cc098c5e57f15e84aba4', 'zh_title': 'An organic conductor electrode for the oxidation of NADH', 'authors': 'W. John Albery;Philip N. Bartlett', 'journal': 'Journal of the Chemical Society, Chemical Communications', 'year': '1984'};{'id': 'j_fc85013dee497de343026369c4a6f330', 'zh_title': 'General expression of the linear potential sweep voltammogram in the case of diffusionless electrochemical systems', 'authors': 'E. Laviron', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1979'};{'id': 'j_df6cc9eda285e60c3edf084c186721fa', 'zh_title': 'Upgrade of a semi-automatic flow injection analysis system to a fully automatic one by means of a resident program', 'authors': 'M. I. Prodromidis;A. B. Tsibiris;M. I. Karayannis', 'journal': 'Journal of Automated Methods & Management in Chemistry', 'year': '1995'};{'id': 'j_951d490883e75dbcfa07e2d18547ac4c', 'zh_title': 'Preliminary determinations of electron transfer kinetics involving ferrocene covalently attached to a platinum surface', 'authors': 'Michael Sharp;Marianne Petersson;Kerstin Edstr?m', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1979'};{'id': 'j_82ce8a5e40031918cb9deb78ceb1611c', 'zh_title': 'Electrochemical stability of catechols with a pyrene side chain strongly adsorbed on graphite electrodes for catalytic oxidation of dihydronicotinamide adenine dinucleotide', 'authors': 'Hans Jaegfeldt;Theodore Kuwana;Gillis Johansson', 'journal': 'Journal of the American Chemical Society', 'year': '1983'};{'id': 'j_bfc64472124c7b39a6bce9ea6ce21c4f', 'zh_title': 'Electrochemical detection of NADH and dopamine in flow analysis based on tetraruthenated porphyrin modified electrodes', 'authors': 'L��cio Angnes;Carla M.N. Azevedo;Koiti Araki;Henrique E. Toma', 'journal': 'Analytica Chimica Acta', 'year': '1996'};{'id': 'j_2c032cee7f0a669d6e6516ddb0c1e59d', 'zh_title': 'Stopped-flow kinetic studies of the coupled dichlorophenol indophenol��nicotinamide adenine dinucleotide reaction', 'authors': 'M.I. Karayannis;P.A. Siskos', 'journal': 'Analytica Chimica Acta', 'year': '1982'};{'id': 'j_d4e40d2ae5ed9a0b5c60fbff40c27486', 'zh_title': 'Kinetic and mechanistic study of the reaction of 2,6-dichlorophenol-indophenol and cysteine', 'authors': 'C Konidari', 'journal': 'Talanta', 'year': '1992'};{'id': 'j_fd1a5eaf21cc8b1a7dd367fb5c671d3f', 'zh_title': 'Electrocatalytic oxidation of reduced nicotinamide coenzymes by graphite electrodes modified with an adsorbed phenoxazinium salt, meldola blue', 'authors': 'Lo Gorton;Arne Torstensson;Hans Jaegfeldt;Gillis Johansson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1984'};{'id': 'j_a953a19fe266fcd48c3e5e3cefbe5381', 'zh_title': 'A comparative study of some 3,7-diaminophenoxazine derivatives and related compounds for electrocatalytic oxidation of NADH', 'authors': 'Bj?rn Persson;Lo Gorton', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1990'};{'id': 'j_685e8fdc78ca340ec8baa19c2b8fefd2', 'zh_title': 'AMPEROMETRIC ENZYME ELECTRODE BASED ON DEHYDROGENASE AND NADH OXIDASE', 'authors': 'FUMIO MIZUTANI;SOICHI YABUKI;TATSUO KATSURA', 'journal': 'Analytical Sciences', 'year': '1991'};{'id': 'j_91efc0698c61ae9fae7dca9640a309a8', 'zh_title': 'A chemically modified graphite electrode for electrocatalytic oxidation of reduced nicotinamide adenine dinucleotide based on a phenothiazine derivative, 3-��-naphthoyl-toluidine blue O', 'authors': 'Bj?rn Persson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1990'};{'id': 'j_07018c251fe11d8d0f8b3148f6ccf6b9', 'zh_title': 'Carbon paste electrodes modified with enzymes, tissues, and cells', 'authors': 'L. Gorton', 'journal': 'Electroanalysis', 'year': '1995'};{'id': 'j_a1137af43ba431adae56d1d21a0ed756', 'zh_title': 'Selective detection in flow analysis based on the combination of immobilized enzymes and chemically modified electrodes', 'authors': 'L. Gorton;E. Cs?regi;E. Dom��nguez;J. Emn��us;G. J?nsson-Pettersson;G. Marko-Varga;B. Persson', 'journal': 'Analytica Chimica Acta', 'year': '1991'};{'id': 'j_689cf313baa616018d07367862f2143a', 'zh_title': 'Removal of ascorbic acid interference in the determination of glucose and sucrose in non-alcoholic beverages', 'authors': 'S TZOUWARAKARAYANNI;M KARAYANNIS;S CROUCH', 'journal': 'Food Chemistry', 'year': '1993'};{'id': 'j_8b9167df92a5b10e47eefb0caf4fc5c0', 'zh_title': 'Electrochemical methods, fundamentals and applications', 'authors': 'D. A. Aikens', 'journal': 'Journal of Chemical Education', 'year': '1983'};{'id': 'j_6883ef359e2e98999f9e1cc2d38adec2', 'zh_title': 'Catalytic oxidation of reduced nicotinamide adenine dinucleotide at hexacyanoferrate-modified nickel electrodes', 'authors': 'B. F. Y. Yon Hin;Christopher R. Lowe', 'journal': 'Analytical Chemistry', 'year': '1987'};{'id': 'j_5f6d01f2d629f9dd1bc413efbaafccc7', 'zh_title': 'General expression of the linear potential sweep voltammogram for a surface redox reaction with interactions between the adsorbed molecules', 'authors': 'E. Laviron;L. Roullier', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1980'};{'id': 'j_7dac95bf167118366617a2ca7eff4a42', 'zh_title': 'Comparative kinetic study for rate constant determination of the reaction of ascorbic acid with 2,6-dichlorophenolindophenol', 'authors': 'M.I. Karayannis', 'journal': 'Talanta', 'year': '1976'};{'id': 'j_4c7269aed6800f7a8958faa11c09cf42', 'zh_title': 'A multilayer model for the study of space distributed redox modified electrodes', 'authors': 'E. Laviron;L. Roullier;C. Degrand', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1980'};{'id': 'j_7eaf4a0cfccd7fe6366346d7c6b1e7e1', 'zh_title': 'Reflectometric study of the acid\ue5f8base quilibria of indicators immobilised on a styrene/divinylbenzene copolymer', 'authors': 'Ramaier Narayanaswamy;Fortunato Sevilla', 'journal': 'Analytica Chimica Acta', 'year': '1986'};{'id': 'j_6eea8561d69e22763262a1dbd276b302', 'zh_title': 'Amperometric glucose sensor based on glucose dehydrogenase immobilized on a graphite electrode modified with an N,N��-bis(benzophenoxazinyl) derivative, of benzene-1,4-dicarboxamide', 'authors': 'Miroslav Pol��?ek;Lo Gorton;Roger Appelqvist;Gy?rgy Marko-Varga;Gillis Johansson', 'journal': 'Analytica Chimica Acta', 'year': '1991'}","{'person_id': '703977b267e756a95cec8a6910dda07f', 'orcid': ' ', 'name': 'Ageliki B. Florou', 'email': '', 'org_name': 'University of Ioannina', 'org_id': '50bbd2b1af503f98fa68ccd44a521a0f', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '8a4ccd87a4b822e32ddc314c716aefaf', 'orcid': ' ', 'name': 'Stella M. Tzouwara-Karayanni', 'email': '', 'org_name': 'University of Ioannina', 'org_id': '50bbd2b1af503f98fa68ccd44a521a0f', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '31430f359e791950b9792ca19b646652', 'orcid': ' ', 'name': 'Miltiades I. Karayannis', 'email': '', 'org_name': 'University of Ioannina', 'org_id': '50bbd2b1af503f98fa68ccd44a521a0f', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '79dc499afe3cc61625c7980b1b5e7b3e', 'orcid': 'https://orcid.org/0000-0002-1309-403X', 'name': 'Mamas I. Prodromidis', 'email': '', 'org_name': 'University of Ioannina', 'org_id': '50bbd2b1af503f98fa68ccd44a521a0f', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_7c1ffc85da0be36335e16a3ca69d8870,10.1002/(sici)1521-4109(199901)11:1<65::aid-elan65>3.0.co;2-a,Properties of a Low Band Gap Conducting Polymer Electrode Used for Amperometric Detection in Liquid Chromatography,1999,E. Staes;D. Vangeneugden;L. J. Nagels;D. Vanderzande;J. Gelan,E. Staes,TRUE,1999/1/1,11,1,65,69,1040-0397;1521-4109,"The performance characteristics of a conductive polymer, used as working electrode material in a wall-jet amperometric detector are described. The electrode coating consisted of a poly(5,6-dithio-octyl-1,3-dithienylisothianaphthene) layer. The material was coated on the surface of a glassy carbon electrode through evaporation from a dichloromethane solution. It is a low band gap polymer (1.41?eV), with an intrinsic conductivity of 10?2?S?cm?1, which makes the use of a dopant unnecessary. Catecholamines were used as model substances in oxidative measurements. Detection limits in LC separations with 4.6?mm ID columns (1?mL?min?1 flow-rate) were 250?pg; the t90response time was 3?s. Quinones and nitrophenolics were studied in reductive measurements. The material could be used at negative potentials down to ?800?mV (vs. SCE) without losing its electrocatalytic and conductive properties. The coating was competitive to glassy carbon in most respects and superior to polypyrrole. It showed group specificity in reductive measurements, e.g., quinones were reduced whereas nitrogroups (electroactive on glassy carbon) were not. The material can be used over a large potential range, shows good electrochemical activity and is very stable. It is suggested for use in modified electrodes.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,11,11,FALSE,,closed,��ѧ������;�绯ѧ,"{'org_name': 'Institute for Materials Research (IMO), Division Organic and Polymer Chemistry, Limburg University (LUC),Universitaire Campus, B�\3590 Diepenbeek, Belgium', 'org_id': 'd303fa117677c4a5a9b807aaa0ff62ce'};{'org_name': '�����l�մ�W', 'org_id': 'b60f80aef6324c2478c7b75018710347'}","{'id': 'j_b8bab7e39cdda161c3dbd81189cb3122', 'zh_title': 'Conducting polymers in chemical sensors and arrays', 'authors': 'Ulrich Lange;Nataliya V. Roznyatovskaya;Vladimir M. Mirsky', 'journal': 'Analytica Chimica Acta', 'year': '2008'};{'id': 'j_992ec4370dddf6154e4aeed061e222ab', 'zh_title': 'Separation and Detection of Nitrophenols at Capillary Electrophoresis Microchips with Amperometric Detection', 'authors': 'Jan Fischer;Jir�� Barek;Joseph Wang', 'journal': 'Electroanalysis', 'year': '2006'};{'id': 'j_d27253430f0801f45409a51ef357e723', 'zh_title': 'Synthesis and complete NMR spectral assignment of thiophene-substituted sulfinyl monomers', 'authors': 'Anja Henckens;Peter Adriaensens;Jan Gelan;Laurence Lutsen;Dirk Vanderzande', 'journal': 'Magnetic Resonance in Chemistry', 'year': '2004'};{'id': 'j_1adb6e4e0dd1709da892ff1f84694f2c', 'zh_title': 'Electronically conductive polymers', 'authors': 'Joseph Jagur-Grodzinski', 'journal': 'Polymers for Advanced Technologies', 'year': '2002'};{'id': 'j_a258205b5bf74466a735fc2841180b89', 'zh_title': 'Optical properties of trans-stilbene using semiempirical and time-dependent density functional theory: A comparative study', 'authors': 'S. P. Kwasniewski;M. S. Deleuze;J. P. Fran?ois', 'journal': 'International Journal of Quantum Chemistry', 'year': '2000'};{'id': 'j_5ee510d276ca825f5d79da3756b31a1d', 'zh_title': 'Low Bandgap Conducting Polymers', 'authors': 'Terje A. Skotheim;John R. Reynolds', 'year': '2007'};{'id': 'j_c9a7fcfa9a6778b212ee772319ab0573', 'zh_title': 'Temperature effects on the UV-Vis electronic spectrum of trans-stilbene', 'authors': 'S. P. Kwasniewski;J. P. Fran?ois;M. S. Deleuze', 'journal': 'International Journal of Quantum Chemistry', 'year': '2001'};{'id': 'j_7e25caffebb59cd904ad696af8238886', 'zh_title': 'Comparative study of the molecular structure of stilbene using molecular mechanics, Hartree�CFock and density functional theories', 'authors': 'L. Claes;S. Kwasniewski;M.S. Deleuze;J.-P. Fran?ois', 'journal': 'Journal of Molecular Structure-theochem', 'year': '2001'};{'id': 'j_213d5af8c99c5ca0b7323dc17731edbf', 'zh_title': 'Deviceless decoupled electrochemical detection of catecholamines in capillary electrophoresis using gold microband array electrodes', 'authors': 'Oliver Klett;Ivo Nischang;Leif Nyholm', 'journal': 'ELECTROPHORESIS', 'year': '2002'};{'id': 'j_32256edc7bd3a560c31ba985862e49c8', 'zh_title': 'Use of Polypyrrole as a Potentiometric Detector in High Performance Liquid Chromatography', 'authors': 'Sabriye Per?in ?zkorucuklu;Y��cel;ahin;G��leren  Alsancak', 'year': '2011'};{'id': 'j_22e5d20cbeac8eeb4007e9ce54f1d563', 'zh_title': 'Open�\Shell Donor�CAcceptor Conjugated Polymers with High Electrical Conductivity', 'authors': 'Lifeng Huang;Naresh Eedugurala;Anthony Benasco;Song Zhang;Kevin S. Mayer;Daniel J. Adams;Benjamin Fowler;Molly M. Lockart;Mohammad Saghayezhian;Hamas Tahir;Eric R. King;Sarah Morgan;Michael K. Bowman;Xiaodan Gu;Jason D. Azoulay', 'journal': 'Advanced Functional Materials', 'year': '2020'}","{'id': 'j_59ffe0bb9b67c8dac2c31aef440c6f12', 'zh_title': 'Electrocatalysis using electroactive polymers, electroactive composites and microheterogeneous systems', 'authors': 'Michael E. G. Lyons', 'journal': 'The Analyst', 'year': '1994'};{'id': 'j_86f948d078826bb8e4b2b0d818002508', 'zh_title': 'Molecular recognition using conducting polymers: basis of an electrochemical sensing technology��Plenary lecture', 'authors': 'P. R. Teasdale;G. G. Wallace', 'journal': 'The Analyst', 'year': '1993'};{'id': 'j_8412a20066c18e97e694fc7de6559728', 'zh_title': 'Electrochemical biosensors based on enzymes immobilized in electropolymerized films', 'authors': 'Marek Trojanowicz;Tadeusz Krawczy?ski vel Krawczyk', 'journal': 'Microchimica Acta', 'year': '1995'};{'id': 'j_0f9efbecbdea4caa845d1f9da9e2bf76', 'zh_title': 'Conducting phenylenevinylene blends as electrode materials in LC amperometric detection', 'authors': 'E. Staes;L. J. Nagels;G. Verreyt;S. Jacobs;Y. Bao;H. J. Geise', 'journal': 'Electroanalysis', 'year': '1997'};{'id': 'j_aee4e6c2e0a8f1120c0a5b3411a2ba7e', 'zh_title': 'Peroxidase-modified electrodes: Fundamentals and application', 'authors': 'Tautgirdas Ruzgas;Elisabeth Cs?regi;Jenny Emn��us;Lo Gorton;Gy?rgy Marko-Varga', 'journal': 'Analytica Chimica Acta', 'year': '1996'};{'id': 'j_9df8830282434c473bf003942e37557f', 'zh_title': 'Analytical applications of conducting polymers', 'authors': 'Ari Ivaska', 'journal': 'Electroanalysis', 'year': '1991'};{'id': 'j_28dab646a8b2977e405e7554c35d3f9f', 'zh_title': 'Reactive groups on polymer covered electrodes, 4. Lactate-oxidase-biosensor based on electrodes modified by polythiophene', 'authors': 'Hans-Peter Welzel;Gerhard Kossmehl;Gunnar Engelmann;Barbara Neumann;Ulla Wollenberger;Frieder Scheller;Werner Schr?der', 'journal': 'Macromolecular Chemistry and Physics', 'year': '1996'};{'id': 'j_3adb1825dae367d86392b43fb0a2bc1a', 'zh_title': 'Investigation and comparison of the electrochemical behavior of some organic and biological molecules at various conducting polymer electrodes', 'authors': 'G Erdogdu', 'journal': 'Talanta', 'year': '1997'};{'id': 'j_6faad7d70622e1d8dc82aab11d3339a6', 'zh_title': 'Grignard Reactions on Ortho Dicarboxylic Arene Derivatives. Synthesis of 1,3-Dithienylisothianaphthene Compounds', 'authors': 'Rafa?l H. L. Kiebooms;Peter J. A. Adriaensens;Dirk J. M. Vanderzande;Jan M. J. V. Gelan', 'journal': 'Journal of Organic Chemistry', 'year': '1997'};{'id': 'j_e2f4bacccb30beb4f76727c4f286e7e0', 'zh_title': 'Chemically modified electrodes in liquid chromatography detection: A review', 'authors': 'Richard P. Baldwin;Karsten N. Thomsen', 'journal': 'Talanta', 'year': '1991'};{'id': 'j_51d77873916e7a5d8532ce1cc67141a9', 'zh_title': 'Voltammetric Resolution of Ascorbic Acid and Dopamine at Conducting Polymer Electrodes', 'authors': 'G. Erdogdu;H. B. Mark;A. E. Karag?zler', 'journal': 'Analytical Letters', 'year': '1996'}","{'person_id': 'e7084ac48f2f4c9f58c9bdeba4abf499', 'orcid': ' ', 'name': 'Dirk Vangeneugden', 'email': '', 'org_name': 'Hasselt University', 'org_id': '261792c7ef0bea4bba9f4347d8644de3', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': ' ', 'orcid': ' ', 'name': 'E. Staes', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '7038802eb0f6eeb3689b4ebc7bab824f', 'orcid': ' ', 'name': 'Jan Gelan', 'email': '', 'org_name': 'Hasselt University', 'org_id': '261792c7ef0bea4bba9f4347d8644de3', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '8857a4c8a4d5f228b0c8cbc4a6e39e90', 'orcid': ' ', 'name': 'Luc J. Nagels', 'email': '', 'org_name': 'University of Antwerp', 'org_id': 'e6c0c79b292b875d2f3b839612d30d73', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'da243fc8e0e402eb2653e3ef27d19dc8', 'orcid': 'https://orcid.org/0000-0002-9110-124X', 'name': 'Dirk Vanderzande', 'email': '', 'org_name': 'Hasselt University', 'org_id': '261792c7ef0bea4bba9f4347d8644de3', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_e8be59e7190a20d7cc1164b0b0b76b7a,10.1002/(sici)1521-4109(199902)11:2<114::aid-elan114>3.0.co;2-f,Electrocatalytic Reduction of Dioxygen at the Surface of Glassy Carbon Electrodes Modified by Some Anthraquinone Substituted Podands,1999,Abdollah Salimi;Hossein Eshghi;Hashem Sharghi;Sayed Mehdi Golabi;Mojtaba Shamsipur,Abdollah Salimi,TRUE,1999/2/1,11,2,114,119,1040-0397;1521-4109,"The preparation and electrochemical characterization of glassy carbon electrodes modified by some recently synthesized anthraquinone substituted podands were investigated. These compounds were found to be strongly and irreversibly adsorbed on the preanodized glassy carbon electrodes. The electrochemical behavior and stability of the modified electrodes were studied by cyclic voltammetry in acidic aqueous solutions. The influence of pH on the electrochemical behavior of the electrodes was studied and a pH of 4.5 was chosen as the optimum working pH. The ability of the modified electrodes as potential electrocatalysts for the reduction of dioxygen to hydrogen peroxide was tested by cyclic voltammetry, chronomperometry and rotating disk electrode voltammetry. They showed excellent electrocatalytic ability for the reduction of O2at pH?4.5 with overpotentials ranging from 380 to 470?mV lower than the plain glassy carbon electrode. The heterogeneous rate constants for the reduction of O2 at the surface of these modified electrodes were determined by the use of Koutecky-Levich plots. In addition, the apparent diffusion coefficients of O2 in buffered aqueous O2-saturated solution was estimated.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,89,42,FALSE,,closed,�绯ѧ;��ѧ������,"{'org_name': '����ʿ��W', 'org_id': '4129dec95996f32f15513f873ea3c479'}","{'id': 'j_e50b9cb0dc3bb6d95337211b7b9144dc', 'zh_title': 'Spontaneous modification of glassy carbon surface with anthraquinone from the solutions of its diazonium derivative: An oxygen reduction study', 'authors': 'Jaanika-Maria Seinberg;Marko Kullapere;Uno M?eorg;Fernando C. Maschion;Gilberto Maia;David J. 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Huissoud', 'journal': 'Electrochimica Acta', 'year': '1996'};{'id': 'j_5891ec15669ac34b9005eb4a33777266', 'zh_title': 'Electrocatalysis of NADH oxidation with electropolymerized films of azure I', 'authors': 'Chen-Xin Cai;Kuan-Hong Xue', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1997'}","{'person_id': '7026bac2f2439683bdeb901ecdbdc515', 'orcid': 'https://orcid.org/0000-0001-6560-4815', 'name': 'Mojtaba Shamsipur', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'e9c90a86dbc07483d734f5574668a536', 'orcid': 'https://orcid.org/0000-0002-8417-220X', 'name': 'Hossein Eshghi', 'email': '', 'org_name': 'Shiraz University', 'org_id': ' ', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'f2858b0e2b463b1add7e8884bcd68a75', 'orcid': 'https://orcid.org/0000-0001-6942-9831', 'name': 'Abdollah Salimi', 'email': '', 'org_name': 'Tarbiat Modares University', 'org_id': 'b28c12f8ec1caa442f02c684aa71b3c4', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '818df4153b2ac6cc6007c830021d1211', 'orcid': ' ', 'name': 'Sayed Mehdi Golabi', 'email': '', 'org_name': 'University of Tabriz', 'org_id': '14d85b4d5b79358e4a7de6a9ad9039bf', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'b4d0174cb243312c6ed7ecf89d994b5f', 'orcid': 'https://orcid.org/0000-0001-6772-3332', 'name': 'Hashem Sharghi', 'email': '', 'org_name': 'Shiraz University', 'org_id': ' ', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_14a477767bedb66c8f7e759d71d562ac,10.1002/(sici)1521-4109(199902)11:2<129::aid-elan129>3.0.co;2-s,Electrocatalytic Oxidation of Dihydronicotinamide Adenine Dinucleotide with Ferrocene Carboxylic Acid by Diaphorase fromClostridium kluveri. Remarks on the Kinetic Approaches Usually Adopted,1999,Riccarda Antiochia;Irma Lavagnini;Franco Magno,Riccarda Antiochia,TRUE,1999/2/1,11,2,129,133,1040-0397;1521-4109,The kinetics of the electron transfer between NADH and ferrocenecarboxylic acid (FMCA) catalyzed by diaphorase from Clostridium kluveri (EC 1.8.1.4.) was studied by voltammetry. A commercially available digital simulation program permitted one to determine the rate constants of the catalytic system by a fitting procedure. A rate constant of 3��104?M?1?s?1was found for the reaction between diaphorase and mediator while a value of 8?M?1?s?1was found for the parallel competitive reaction between NADH and mediator. In addition a comparison of the present method to other data treatment procedures reported in the literature and a brief evaluation of their limits of applicability were carried out.,Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,12,26,FALSE,,closed,��ѧ������;�绯ѧ,"{'org_name': '�����ߴ�ѧ', 'org_id': 'd62fcdbbabc504b15281bbff6f06f4e4'}","{'id': 'j_1d7d99c711120d809620105ac9081424', 'zh_title': 'Silver(I) ferrocenylcarboxylate: Reactivity and reaction behavior toward phosphines and phosphites', 'authors': 'Janett K��hnert;Harald Hahn;Tobias R��ffer;Bernhard Walfort;Heinrich Lang', 'journal': 'Journal of Organometallic Chemistry', 'year': '2013'};{'id': 'j_2bb0beed5fbb3e7b160c805936d5c4f5', 'zh_title': 'Determination of Enzyme Kinetic Constants for Electrochemically Mediated Enzyme Reactions. Application to the Diaphorase-Nicotinamide Adenine Dinucleotide System withp-Methylaminophenolsulfate as an Electron Carrier', 'authors': 'Riccarda Antiochia;Irma Lavagnini;Franco Magno', 'journal': 'Electroanalysis', 'year': '2001'};{'id': 'j_ac511d17c00b0c0659cbfa053658b843', 'zh_title': 'Electrocatalytic oxidation of NADH at single-wall carbon-nanotube-paste electrodes: kinetic considerations for use of a redox mediator in solution and dissolved in the paste', 'authors': 'Riccarda Antiochia;Irma Lavagnini;Franco Magno', 'journal': 'Analytical and Bioanalytical Chemistry', 'year': '2005'};{'id': 'j_5b9e8e30417bb9a8c69741d3fcf0368a', 'zh_title': 'Ferrocenecarboxylic acid adsorbed on Nb2O5 film grafted on a SiO2 surface: NADH oxidation study', 'authors': 'Christiana A. Pess?a;Yoshitaka Gushikem;Lauro T. Kubota', 'journal': 'Electrochimica Acta', 'year': '2001'};{'id': 'j_d69c62402d465111132c8bd7fb20fd7a', 'zh_title': 'A versatile molecular logic system based on Eu(iii) coordination polymer film electrodes combined with multiple properties of NADH', 'authors': 'Wenting Wei;Jiaxuan Li;Huiqin Yao;Keren Shi;Hongyun Liu', 'journal': 'PHYSICAL CHEMISTRY CHEMICAL PHYSICS', 'year': '2020'};{'id': 'j_67704e44eba0af073ce9b1a43ae8ec46', 'zh_title': 'Encyclopedia of Industrial Biotechnology (Bioprocess, Bioseparation, and Cell Technology) || Dehydrogenases, Electrochemical Cofactor Regeneration', 'authors': 'Flickinger, Michael C.', 'year': '2009'};{'id': 'j_9d88c9c8e78ac43ea46fcf7e4269e0ec', 'zh_title': 'Recent developments in the chemistry of dihydropyridines', 'authors': 'Rodolfo Lavilla', 'journal': 'Journal of the Chemical Society, Perkin Transactions 1', 'year': '2002'};{'id': 'j_d39022009cd814703cf99b8a1504c11e', 'zh_title': 'Electrical communication between electrode and dehydrogenase by a ferrocene-labeled high molecular-weight cofactor derivative: application to a reagentless biosensor', 'authors': 'Haitao Zheng;Jingli Zhou;Jimei Zhang;Rong Huang;Hailian Jia;Shin-ichiro Suye', 'journal': 'MICROCHIMICA ACTA', 'year': '2008'};{'id': 'j_863b18da205d305af3657be025f8c57f', 'zh_title': 'Comprehensive Organometallic Chemistry III || Organometallic Compounds in Biosensing', 'authors': 'Cass, A.E.G.', 'year': '2007'};{'id': 'j_6f385c8c64af92a20f3045f2caeb38cc', 'zh_title': 'A General Method for the Electrochemical Evaluation of the Bimolecular Rate Constant in Enzyme Catalyzed Reaction Kinetics', 'authors': 'Riccarda Antiochia;Irma Lavagnini;Franco Magno', 'journal': 'Electroanalysis', 'year': '2001'};{'id': 'j_51ce272afef3114fcb938429c809b52d', 'zh_title': 'Minimally Invasive Glucose Monitoring Using a Highly Porous Gold Microneedles-Based Biosensor: Characterization and Application in Artificial Interstitial Fluid', 'authors': 'Paolo Bollella;Sanjiv Sharma;Anthony E. G. Cass;Federico Tasca;Riccarda Antiochia', 'journal': 'Catalysts', 'year': '2019'};{'id': 'j_548b2f5351ac36141e32cf7ef18e8e20', 'zh_title': 'A comparison between the use of a redox mediator in solution and of surface modified electrodes in the electrocatalytic oxidation of nicotinamide adenine dinucleotide', 'authors': 'Riccarda Antiochia;Irma Lavagnini;Paolo Pastore;Franco Magno', 'journal': 'Bioelectrochemistry', 'year': '2004'}","{'id': 'j_221ada34fd997cf8d4539e591d78c13b', 'zh_title': 'Reactions between diaphorase and quinone compounds in bioelectrocatalytic redox reactions of NADH and NAD+', 'authors': 'Yasuhiro Ogino;Kazuyoshi Takagi;Kenji Kano;Tokuji Ikeda', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1995'};{'id': 'j_8f29a2f4fa81002a93f1a63279c9ede8', 'zh_title': 'Ferrocene-mediated enzyme electrode for amperometric determination of glucose', 'authors': 'Anthony E. G. Cass;Graham. Davis;Graeme D. Francis;H. Allen O. Hill;William J. Aston;I. John. Higgins;Elliot V. Plotkin;Lesley D. L. Scott;Anthony P. F. Turner', 'journal': 'Analytical Chemistry', 'year': '1984'};{'id': 'j_2140dbc91656d89d687d6fb3d3d61e8b', 'zh_title': 'Theory of Stationary Electrode Polarography.  Single Scan and Cyclic Methods Applied to Reversible, Irreversible, and Kinetic Systems.', 'authors': 'R. S. Nicholson;Irving. Shain', 'journal': 'Analytical Chemistry', 'year': '1964'};{'id': 'j_cd951bc47ede318f6c93b64b5d65b8d9', 'zh_title': 'Oxidation of NADH by ferrocenium salts. Rate-limiting one-electron transfer', 'authors': 'Brian W. Carlson;Larry L. Miller', 'journal': 'Journal of the American Chemical Society', 'year': '1983'};{'id': 'j_e79f2dcea66efb92de0371244d47e5c7', 'zh_title': 'Mechanism of the oxidation of NADH by quinones. Energetics of one-electron and hydride routes', 'authors': 'Brian W. Carlson;Larry L. Miller', 'journal': 'Journal of the American Chemical Society', 'year': '1985'};{'id': 'j_75d4113ed75f76b9dd551d25cbf3086d', 'zh_title': 'Electron transferase activity of diaphorase (NADH: acceptor oxidoreductase) from Bacillus stearothermophilus', 'authors': 'Tomokazu Matsue;Hiroshi Yamada;Hsien-Chang Chang;Isamu Uchida;Kazuhiko Nagata;Kosuke Tomita', 'journal': 'Biochimica et biophysica acta', 'year': '1990'};{'id': 'j_9fcd033064bbc29c791d6e76d213ca5c', 'zh_title': 'ACS Symposium Series] Biosensors and Chemical Sensors Volume 487 (Optimizing Performance Through Polymeric Materials) || Electrocatalytic Oxidation of Nicotinamide Adenine Dinucleotide Cofactor at Chemically Modified Electrodes', 'authors': 'Edelman, Peter G.; Wang, Joseph ', 'year': '1992'};{'id': 'j_7bbc7e9de50725b151dc9c20d02a6f71', 'zh_title': 'Oxidation of NADH involving rate-limiting one-electron transfer', 'authors': 'Brian W. Carlson;Larry L. Miller;P. Neta;Jan Grodkowski', 'journal': 'Journal of the American Chemical Society', 'year': '1984'};{'id': 'j_eef2f34701b7643a0bee753ca2f5bc39', 'zh_title': 'Combined electrochemical/enzymic method for in situ regeneration of NADH based on cathodic reduction of cyclic disulfides', 'authors': ""Ze'ev Shaked;James J. Barber;George M. Whitesides"", 'journal': 'The Journal of Organic Chemistry', 'year': '1981'};{'id': 'j_8e67b820fb3ee9e7d2b4c6a51bd0066d', 'zh_title': 'Voltammetric determination of electron-transfer rate between an enzyme and a mediator', 'authors': 'James F. Rusling;Kazunori Ito', 'journal': 'Analytica Chimica Acta', 'year': '1991'};{'id': 'j_3cfe914fdc4dee48edf3b6ca1d5a0f85', 'zh_title': 'Bioelectrocatalytic reduction of nad+ to nadh on diaphorase modified electrodes', 'authors': 'Tomokazu Matsue;Hsien-Chang Chang;Isamu Uchida;Tetsuo Osa', 'journal': 'Tetrahedron Letters', 'year': '1988'};{'id': 'j_ff975f48f171ea46db1ffd296caccafc', 'zh_title': 'A Simulator for Cyclic Voltammetric Responses', 'authors': 'Manfred Rudolph;David P. Reddy;Stephen W. Feldberg', 'journal': 'Analytical Chemistry', 'year': '1994'};{'id': 'j_ef5f000e74e38eef6b833e13f1ae1493', 'zh_title': 'Electrocatalytic oxidation of NADH by ferrocene derivatives and the influence of cyclodextrin complexation', 'authors': 'Tomokazu Matsue;Masayuki Suda;Isamu Uchida;Tetsuya Kato;Uichi Akiba;Tetsuo Osa', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1987'};{'id': 'j_e4acdc1a1fb23a80463e04affdfef129', 'zh_title': 'Chemical and electrochemical oxidation of aqueous solutions of NADH and model compounds', 'authors': 'P. Leduc;D. Th��venot', 'journal': 'Bioelectrochemistry and Bioenergetics', 'year': '1974'};{'id': 'j_2e087cd97be34550db353af1bc449c48', 'zh_title': 'Digital simulation of steady state and non-steady state voltammetric responses for electrochemical reactions occurring at an inlaid microdisk electrode', 'authors': 'I. Lavagnini;P. Pastore;F. Magno', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1993'};{'id': 'j_0a6373c721373f7e07af3dc572436bcb', 'zh_title': 'Purification and sensor applications of an oxygen insensitive, thermophilic diaphorase', 'authors': 'R. Antiochia;A.E.G. Cass;G. Palleschi', 'journal': 'Analytica Chimica Acta', 'year': '1997'};{'id': 'j_9cfb289d6d1dfb6329cca61b0f8ac010', 'zh_title': 'Mechanistic aspects of the electrochemical oxidation of dihydronicotinamide adenine dinucleotide (NADH)', 'authors': 'Jacques Moiroux;Philip J. Elving', 'journal': 'Journal of the American Chemical Society', 'year': '1980'};{'id': 'j_7ba97cd0d2025f8ade523450bbf3b15a', 'zh_title': 'Enzyme-catalyzed organic synthesis: electrochemical regeneration of NAD(P)H from NAD(P) using methyl viologen and flavoenzymes', 'authors': 'Robert DiCosimo;Chi-Huey Wong;Lacy Daniels;George M. Whitesides', 'journal': 'The Journal of Organic Chemistry', 'year': '1981'};{'id': 'j_8520c82ee3a3b17e945185532587027e', 'zh_title': 'Catalytic electrooxidation of NADH for dehydrogenase amperometric biosensors', 'authors': 'Ioanis Katakis;Elena Dom?nguez', 'journal': 'Microchimica Acta', 'year': '1997'};{'id': 'j_0e5c17336357fa250c6625f8a8c87ede', 'zh_title': 'A Tri-Enzyme Electrode Probe for the Sequential Determination of Fructose and Glucose in the Same Sample', 'authors': 'R. Antiochia;G. Palleschi', 'journal': 'Analytical Letters', 'year': '1997'};{'id': 'j_ea2b4332538333fc51578dc49e64a30f', 'zh_title': 'The pyridinium-dihydropyridine system. Reduction potentials and the mechanism of oxidation of 1,4-dihydropyridines by a Schiff base', 'authors': 'R. Srinivasan;Richard T. Medary;Harvey F. Fisher;Donald J. Norris;Ross Stewart', 'journal': 'Journal of the American Chemical Society', 'year': '1982'};{'id': 'j_9bcf9220598a5915c4c4951de799a077', 'zh_title': 'Ferricyanide oxidation of dihydropyridines and analogs', 'authors': 'Michael F. Powell;James C. Wu;Thomas C. Bruice', 'journal': 'Journal of the American Chemical Society', 'year': '1984'};{'id': 'j_307b5aac9adf0449ef283a5c11b1ccc5', 'zh_title': 'Digital Simulation in Electrochemistry', 'authors': 'Dieter  Britz;J?rg  Strutwolf', 'journal': 'Digital Simulation in Electrochemistry', 'year': '1981'};{'id': 'j_3cc83362c9c93876cb178a7f92dd59ae', 'zh_title': 'Purification and properties of a DPNH-TPNH diaphorase from Clostridium kluyverii', 'authors': 'F. Kaplan;P. Setlow;N.O. Kaplan', 'journal': 'Archives of biochemistry and biophysics', 'year': '1969'};{'id': 'j_af8415e9585faa6fef106c14017268a7', 'zh_title': 'Amperometric biosensors based on NAD(P)-dependent dehydrogenase enzymes', 'authors': 'Maria Jes��s Lobo;Arturo J. Miranda;Paulino Tu?��n', 'journal': 'Electroanalysis', 'year': '1997'};{'id': 'j_bc151f5e942ff7cb10aabd7cf55f16c2', 'zh_title': 'Electrochemical regeneration of nicotinamide adenine dinucleotide', 'authors': 'Masuo Aizawa;Robert W. Coughlin;Marvin Charles', 'journal': 'Biochimica et biophysica acta', 'year': '1975'}","{'person_id': '8c65220b9387e63f1297e79a4e718d9c', 'orcid': ' ', 'name': 'Irma Lavagnini', 'email': '', 'org_name': 'University of Padua', 'org_id': 'ec6c7a5c5b5590ae9c2e5f4b1cdb9bda', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'c142da87b88e4aecaf43506437d6a8cf', 'orcid': 'https://orcid.org/0000-0001-8990-8506', 'name': 'Riccarda Antiochia', 'email': '', 'org_name': 'University of Padua', 'org_id': 'ec6c7a5c5b5590ae9c2e5f4b1cdb9bda', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'fbe036c50617d5ed5a756b20c0df64d0', 'orcid': ' ', 'name': 'Franco Magno', 'email': '', 'org_name': 'University of Padua', 'org_id': 'ec6c7a5c5b5590ae9c2e5f4b1cdb9bda', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_a7156d417e79bbeaa4562d7cd75d496c,10.1002/(sici)1521-4109(199902)11:2<134::aid-elan134>3.0.co;2-7,Electrocatalytic Reduction of Dioxygen at Carbon Electrodes Modified with Co(II)-Schiff Base Complexes in Various pH Solutions,1999,Yong-Kook Choi;Jong-Ki Park;Seoungwon Jeon,Yong-Kook Choi,TRUE,1999/2/1,11,2,134,138,1040-0397;1521-4109,"The electrocatalytic reduction of dioxygen has been studied by cyclic voltammetry and chronoamperometry at a glassy carbon electrode and a carbon microelectrode modified with Schiff base Co(II) complex in a dioxygen saturated 1?M KOH aqueous solution of various pH and temperature. The electrochemical reduction of dioxygen at the modified electrode establishes a pathway of two-electron reduction to form hydrogen peroxide. The reduction potential (EP) of dioxygen shows pH dependence. The electrochemical reduction of dioxygen is irreversible and diffusion controlled. The activation energy obtained from Arrhenius plots for the reduction of dioxygen was 3.64?Kcal/mol at the bare glassy carbon electrode, whereas it was 2.51?Kcal/mol at the modified glassy carbon electrode.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,22,18,FALSE,,closed,��ѧ������;�绯ѧ,{},"{'id': 'j_cd1e647000e4201bc72c2f3d93c29b3f', 'zh_title': 'Cyclic voltammetry study of the electrocatalytic reduction of sevoflurane by a cobalt(III) Schiff base complex in the presence of oxygen', 'authors': 'Mostafa Najafi;Mohammad Rahbar;Mohammad Ali Naseri', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2011'};{'id': 'j_b3912e730f742721e7e309cf4172d6a9', 'zh_title': 'Thiocyanate-selective electrode based on N-salicylidene-benzylamineato copper(II) complex', 'authors': 'F. C. Wang;Y. Q. Chai;R. Yuan', 'journal': 'Russian Journal of Electrochemistry', 'year': '2008'};{'id': 'j_8cce1b79c2905bd2942b7da801535d19', 'zh_title': 'A lead(II)-selective PVC membrane based on a Schiff base complex of ,?-bis(salicylidene)-2,6-pyridinediamine', 'authors': 'T JEONG;H LEE;D JEONG;S JEON', 'journal': 'Talanta', 'year': '2005'};{'id': 'j_cf6bdb1a241423ac565da855bdb04526', 'zh_title': 'Metallocene-containing conjugated polymers', 'authors': 'Mikhail A. Vorotyntsev;Svetlana V. Vasilyeva', 'journal': 'Advances in colloid and interface science', 'year': '2008'};{'id': 'j_96b580e41fbd13c9984931b446e94ad0', 'zh_title': 'Synthesis of a DNA-targeting nickel (II) complex with testosterone thiosemicarbazone which exhibits selective cytotoxicity towards human prostate cancer cells (LNCaP)', 'authors': 'Mok Piew Heng;Saravana Kumar Sinniah;Wuen Yew Teoh;Kae Shin Sim;Seik Weng Ng;Yoke Kqueen Cheah;Kong Wai Tan', 'journal': 'Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy', 'year': '2015'};{'id': 'j_c43808b74c9b2e2df95934efe189851d', 'zh_title': 'Electrocatalytic reduction of O2 at pyrolytic graphite electrode modified by a novel copper(II) complex with 2-bis(2-aminoethyl)amino]ethanol and imidazole ligands', 'authors': 'M. Wang;X. Xu;J. Gao;N. Jia;Y. Cheng', 'journal': 'Russian Journal of Electrochemistry', 'year': '2006'};{'id': 'j_a64a6ef9a914f6cb9be6b88aca61309f', 'zh_title': 'Dioxygen activation with a cytochrome P450 model. 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Klinman', 'journal': 'Journal of the American Chemical Society', 'year': '1995'};{'id': 'j_f64c7b946ba16f6957ab1151cbcc5d42', 'zh_title': 'Electrochemical studies of adrenergic neurotrans-mitters and related compounds', 'authors': 'A.W. Sternson;R. McCreery;B. Feinberg;R.N. Adams', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1973'};{'id': 'j_a95620f15cad925c1fb704d811d79266', 'zh_title': 'On�\Line Mass Spectrometric Insights Into Electrochemical Reactions: Oxidation of Thiopurines', 'authors': 'Kevin J. Volk;Richard A. Yost;Anna Brajter�\Toth', 'journal': 'Journal of The Electrochemical Society', 'year': '1990'};{'id': 'j_459ed27d95d5a0717fdf7a6990437716', 'zh_title': 'Electrochemical Studies of the Oxidation Pathways of Catecholamines', 'authors': 'M. D. Hawley;S. V. Tatawawadi;S. Piekarski;R. N. 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Phillips', 'journal': 'Analytical Chemistry', 'year': '1987'};{'id': 'j_99bd6f48a21bd2420911fae366f6d298', 'zh_title': 'Monodisperse aerosol generation interface for combining liquid chromatography with mass spectroscopy', 'authors': 'Ross C. Willoughby;Richard F. Browner', 'journal': 'Analytical Chemistry', 'year': '1984'};{'id': 'j_06ca68ac01d36448c505edd32ff32d65', 'zh_title': 'On-Line Probe for Fast Electrochemistry/Electrospray Mass Spectrometry. Investigation of Polycyclic Aromatic Hydrocarbons', 'authors': 'Xiaoming Xu;Wenzhe Lu;Richard B. Cole', 'journal': 'Analytical Chemistry', 'year': '1996'};{'id': 'j_7f46251dcac115d0be2e8ea570578f42', 'zh_title': 'Characterization of solution-phase and gas-phase reactions in on-line electrochemistry��thermospray tandem mass spectrometry', 'authors': 'Kevin J. Volk;Richard A. Yost;Anna Brajter-Toth', 'journal': 'Journal of chromatography', 'year': '1989'};{'id': 'j_1e49ad56c6576e5cf98ea90d9f1cb363', 'zh_title': 'Editorial. Bionalytical Chemistry', 'authors': 'G H. Morrison', 'journal': 'Analytical Chemistry', 'year': '1984'};{'id': 'j_66fa9e8bdf1deca7147065698e768082', 'zh_title': 'An Electrochemical Cell for On-Line Electrochemistry/Mass Spectrometry', 'authors': 'Merle Corazon S. Regino;Anna Brajter-Toth', 'journal': 'Analytical Chemistry', 'year': '1997'};{'id': 'j_5803eda9d597dfc7b60bc6106916a721', 'zh_title': 'Electrochemistry/thermospray/tandem mass spectrometry in the study of biooxidation of purines', 'authors': 'Kevin J. Volk;Mike S. Lee;Richard A. Yost;Anna. Brajter-Toth', 'journal': 'Analytical Chemistry', 'year': '1988'};{'id': 'j_d28f8d40169ef7d203fb0c355006af19', 'zh_title': 'Determination of pH: Theory and Practice', 'authors': 'Roger G. Bates;Ashok K. Vijh', 'journal': 'Journal of The Electrochemical Society', 'year': '1973'};{'id': 'j_bc4881409f7cc952f5246cc80fa56dbd', 'zh_title': 'Electrochemical thermospray mass spectrometry', 'authors': 'Guenther. Hambitzer;Joachim. Heitbaum', 'journal': 'Analytical Chemistry', 'year': '1986'}","{'person_id': 'aa0ded3d4e5e17a25a11319b274db00e', 'orcid': ' ', 'name': 'Anna Brajter-Toth', 'email': '', 'org_name': 'University of Florida', 'org_id': '8c601620aa8a97ba9adbf28d7bd770c4', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'cb058928abbcb562c5212e4d4d9d8f34', 'orcid': ' ', 'name': 'Merle C. S. Regino', 'email': '', 'org_name': 'University of Florida', 'org_id': '8c601620aa8a97ba9adbf28d7bd770c4', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_4ff4394f4308d131b4ba04c440b08506,10.1002/(sici)1521-4109(199905)11:6<406::aid-elan406>3.0.co;2-n,"Development of a Disposable Amperometric NH Biosensor Based on a Chemically Modified Screen-Printed Carbon Electrode Coated with Glutamate Dehydrogenase, 2-Oxoglutarate, and NADH",1999,J. P. Hart;A. K. Abass;D. C. Cowell;A. Chappell,J. P. Hart,TRUE,1999/5/1,11,6,406,411,1040-0397;1521-4109,"A screen-printed carbon electrode (SPCE), impregnated with the electrocatalyst Meldola's Blue (MB), has been investigated as the base transducer in a disposable amperometric NH biosensor. The MB-SPCE detects the cofactor NADH when it is polarized at a potential of only +0.05?V (vs. Ag/AgCl); electrocatalytic oxidation of the cofactor readily occurs at this potential. The device was converted into an NHA biosensor by coating the surface of the MB-SPCE with glutamate dehydrogenase, 2-oxoglutarate and NADH. When ammonium ions are present in the sample solution, a decrease in the anodic current occurs as a result of the enzymatic conversion of 2-oxoglutarate to glutamate which requires NADH. Chronoamperometry was performed on 40?��L aliquots of solutions containing various concentrations of NH4+. A 30?s incubation period was used, then the potential was stepped from open circuit to +0.05?V (vs. Ag/AgCl); response currents were measured from the resulting chronoamperograms at a time of 120?s (t120s). The detection limit was found to be about 2?��M with biosensors containing 4.6?U of enzyme. The stability of these biosensors was examined after storage at 4��C in a desiccator containing silica gel; the response was found to be constant for a period of about 29 days. The proposed biosensors were evaluated on samples of unspiked, and spiked, river water; the recovery and precision data indicated that the devices could be expected to give reliable results for the low levels of NHA normaly expected in rivers.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,20,8,FALSE,,closed,��ѧ������;�绯ѧ,"{'org_name': '��Ӣ������ѧ', 'org_id': 'f7c4c8d078ab108bdc908a5f0d7d0b78'}","{'id': 'j_543e153dff96df2217340d92889fd168', 'zh_title': 'A guide for selecting the most appropriate method for ammonium determination in water analysis', 'authors': 'C. Molins-Legua;S. Meseguer-Lloret;Y. Moliner-Martinez;P. Camp��ns-Falc��', 'journal': 'Trends in Analytical Chemistry', 'year': '2006'};{'id': 'j_5dea8bb4ab72bdf17e3f4932b3724de6', 'zh_title': 'High-sensitive Electrochemical Determination of Ethyl Carbamate Using Urethanase and Glutamate Dehydrogenase Modified Electrode', 'authors': 'Zhiwei Zhang;Xiaoxia Lu;Yaping Tian;Nandi Zhou', 'journal': 'ELECTROANALYSIS', 'year': '2016'};{'id': 'j_3abc679deecfdbc33c512cb50bfbdd96', 'zh_title': 'Selective and Rapid Biosensor Integrated into a Commercial Hand�\Held Instrument for the Measurement of Ammonium Ion in Sewage Effluent', 'authors': 'J. P. Hart;S. Serban;L. J. Jones;N. Biddle;R. Pittson;G. A. Drago', 'journal': 'Analytical Letters', 'year': '2006'};{'id': 'j_901a51b7e5b145b6a7fd5e03a6fc5207', 'zh_title': 'Electroanalysis: From Laboratory to Field Versions', 'authors': 'Kh. Z. Brainina', 'journal': 'Journal of Analytical Chemistry', 'year': '2001'};{'id': 'j_e0216a58ce56a422b8680cb6f559eba4', 'zh_title': ""Amperometric lactate biosensor for flow injection analysis based on a screen-printed carbon electrode containing Meldola's Blue-Reinecke salt, coated with lactate dehydrogenase and NAD+"", 'authors': 'M. Piano;S. Serban;R. Pittson;G.A. Drago;J.P. Hart', 'journal': 'Talanta', 'year': '2010'};{'id': 'j_55d93d43481d908c2ed629427375bcfc', 'zh_title': 'Biosensors based on screen-printing technology, and their applications in environmental and food analysis', 'authors': 'Madalina Tudorache;Camelia Bala', 'journal': 'Analytical and Bioanalytical Chemistry', 'year': '2007'};{'id': 'j_24e818640cb0f2b7e7e964e8132627b3', 'zh_title': 'Effect of L-Aspartate Concentration on the Response of the Amperometric L-Glutamate Sensor for the Measurement of L-Glutamate and Aspartate Aminotransferase Activity in Serum', 'authors': 'Ku-Shang Chang;Chien-Yuan Chen', 'journal': 'Analytical Letters', 'year': '2007'};{'id': 'j_3fc46b713510b1e10ac830fec62195be', 'zh_title': 'A flow injection system, comprising a biosensor based on a screen-printed carbon electrode containing Meldola��s Blue�CReinecke salt coated with glucose dehydrogenase, for the measurement of glucose', 'authors': 'M. Piano;S. Serban;N. Biddle;R. Pittson;G.A. Drago;J.P. Hart', 'journal': 'Analytical biochemistry', 'year': '2010'};{'id': 'j_b3d8b83400d5c5b9d4c982b65da675cd', 'zh_title': 'Cofactor regeneration for sustainable enzymatic biosynthesis', 'authors': 'Wenfang Liu;Ping Wang', 'journal': 'Biotechnology Advances', 'year': '2007'};{'id': 'j_efbb3945a0f44c028e2bfdaa36cb75bd', 'zh_title': 'Multienzyme co-immobilization-based bioelectrode: Design of principles and bioelectrochemical applications', 'authors': 'Ranran Wu;Haiyan Song;Yuanming Wang;Lei Wang;Zhiguang Zhu', 'journal': 'CHINESE JOURNAL OF CHEMICAL ENGINEERING', 'year': '2020'};{'id': 'j_61b18e629421a4b3bcf2337c809e5157', 'zh_title': 'Towards a new type of electrochemical sensor system for process control', 'authors': 'Barry G. D. Haggett;Andrew J. Bell;Brian J. Birch;John W. Dilleen;Stephen John Edwards;D  Law;Stephanie  Mcintyre;S  Palmer', 'journal': 'Progress in Biotechnology', 'year': '2000'};{'id': 'j_ce4d4f530fff573349f2788681c85e5c', 'zh_title': 'Reactivity of Meldola Blue Towards Sulfhydryl Groups : Analytical and Biomedical Aspects', 'authors': '?nci  ?zer', 'year': '2005'};{'id': 'j_d343537b3dd617cce93836e0677c3ea8', 'zh_title': 'Ammonium Determination in Water Samples by Using Opa-Nac Reagent: A Comparative Study with Nessler and Ammonium Selective Electrode Methods', 'authors': 'Susana Meseguer-Lloret;Carmen Molins-Legua;Pilar Campins-Falco', 'journal': 'International Journal of Environmental Analytical Chemistry', 'year': '2002'};{'id': 'j_36cec385853d4a39b6d26e755f07422f', 'zh_title': 'Voltammetric Behavior and Trace Determination of Lead at a Mercury-Free Screen-Printed Carbon Electrode', 'authors': 'Kevin C. Honeychurch;John P. Hart;David C. Cowell', 'journal': 'Electroanalysis', 'year': '2000'};{'id': 'j_29b041c579d63dd46ce63946554d055d', 'zh_title': 'Carbon materials for analytical electrochemistry: printed carbon materials and composites', 'authors': 'D. Sharp;R. Burkitt', 'journal': 'Materials Technology', 'year': '2014'};{'id': 'j_4d6c288ad27a1219996b2c00886f8b97', 'zh_title': 'A Screen-Printed Disposable Enzyme Electrode System for Simultaneous Determination of Sucrose and Glucose', 'authors': 'Tao Hu;Xian-En Zhang;Zhi-Ping Zhang;Li-Qun Chen', 'journal': 'ELECTROANALYSIS', 'year': '2000'};{'id': 'j_c76da18809dc03e3daa7f868ad186fff', 'zh_title': 'Chemometric analysis of screen-printed biosensor chronoamperometric responses', 'authors': 'J. Rojas;A. Fontana Tachon;D. Chevalier;T. Noguer;J.L. Marty;Ch. Ghommidh', 'journal': 'Sensors and Actuators B-chemical', 'year': '2004'};{'id': 'j_93aa1d7acd5947aba6058381a218233c', 'zh_title': 'Selective determination of ammonium in water based on HPLC and chemiluminescence detection', 'authors': 'S. Meseguer-Lloret;C. Molins-Legua;P. Camp��ns-Falc��', 'journal': 'Analytica Chimica Acta', 'year': '2005'};{'id': 'j_00768cf7265250536fbef49b9c3c52b7', 'zh_title': 'The design, development and application of novel, screen-printed amperometric glutamate biosensors', 'authors': 'Gareth  Hughes', 'year': '2015'};{'id': 'j_aebe5b1d07955b78a7003e30e42a2144', 'zh_title': 'An Electrochemical Enzyme Biosensor for Ammonium Detection in Aquaculture Using Screen-Printed Electrode Modified by Gold Nanoparticle/Polymethylene Blue', 'authors': 'Cong Wang;Tan Wang;Zhen Li;Xianbao Xu;Xiaoshuan Zhang;Daoliang Li', 'journal': 'Biosensors', 'year': '2021'}","{'id': 'j_6ffac16b2e1c072a9ad1098892ddf1f6', 'zh_title': 'Development of a disposable amperometric sensor for reduced nicotinamide adenine dinucleotide based on a chemically modified screen-printed carbon electrode', 'authors': 'Steven D. Sprules;John P. Hart;Stephen A. Wring;Robin Pittson', 'journal': 'Analyst', 'year': '1994'};{'id': 'j_757693d39ca2622d7cc2bf745da6e9f2', 'zh_title': 'Mediated amperometric determination of ammonia with a methanol dehydrogenase from Pseudomonas sp. AM-1 immobilized carbon paste electrode', 'authors': 'Shin-ichiro Suye;Yoshiharu Nakamura;Shusei Inuta;Tokuji Ikeda;Mitsugi Senda', 'journal': 'Biosensors & bioelectronics', 'year': '1996'};{'id': 'j_ce3ff55a095fd0fb111ac2bbb9178fc8', 'zh_title': 'A disposable reagentless screen-printed amperometric biosensor for the measurement of alcohol in beverages', 'authors': 'Steven D. Sprules;Ian C. Hartley;Richard Wedge;John P. Hart;Robin Pittson', 'journal': 'Analytica Chimica Acta', 'year': '1996'};{'id': 'j_84dc7cb0c8f1ee2420a90b84f7539d6e', 'zh_title': 'Recent developments in the design and application of screen-printed electrochemical sensors for biomedical, environmental and industrial analyses', 'authors': 'John P. Hart;Stephen A. Wring', 'journal': 'Trends in Analytical Chemistry', 'year': '1997'};{'id': 'j_8ba9648335a1608643d4f8b1d7c1ad6e', 'zh_title': 'Development of an amperometric assay for NH+4 based on a chemically modified screen-printed NADH sensor', 'authors': 'A.K. Abass;J.P. Hart;D.C. Cowell;A. Chappell', 'journal': 'Analytica Chimica Acta', 'year': '1998'};{'id': 'j_4914124efaadfaade3d412e431b2bab7', 'zh_title': 'Enzymatic determination of ammonia in blood plasma', 'authors': 'Akiko Ishihara;Kengo Kurahasi;Hideo Uehara', 'journal': 'Clinica chimica acta; international journal of clinical chemistry', 'year': '1972'};{'id': 'j_b07b8e2719ef6efa28a7acf5a370fc2f', 'zh_title': ""A reagentless, disposable biosensor for lactic acid based on a screen-printed carbon electrode containing Meldola's Blue and coated with lactate dehydrogenase, NAD+ and cellulose acetate"", 'authors': 'Steven D. Sprules;John P. Hart;Stephen A. Wring;Robin Pittson', 'journal': 'Analytica Chimica Acta', 'year': '1995'};{'id': 'j_d3c36666c4f5e0fca082cf62e62c5eda', 'zh_title': 'Evaluation of a new disposable screen-printed sensor strip for the measurement of NADH and its modification to produce a lactate biosensor employing microliter volumes', 'authors': 'Steven D. Sprules;John P. Hart;Robin Pittson;Stephen A. Wring', 'journal': 'Electroanalysis', 'year': '1996'}","{'person_id': 'd6494b28704184c0a56e6e7fc578253b', 'orcid': ' ', 'name': 'A.K. Abass', 'email': '', 'org_name': 'University of the West of England', 'org_id': '131950920e17341b5a516e0524bfb58f', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '03f3cb556fd950ba00ccac8333c0ac68', 'orcid': ' ', 'name': 'David C. Cowell', 'email': '', 'org_name': 'University of the West of England', 'org_id': '131950920e17341b5a516e0524bfb58f', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'da941eb70d81a1de34a7b213f193a7c4', 'orcid': ' ', 'name': 'A. Chappell', 'email': '', 'org_name': 'Environment Agency', 'org_id': 'd057183e7eb9315553feec60d947694d', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'e5afe4c73b2ed78ab2471511b41c408f', 'orcid': 'https://orcid.org/0000-0002-3588-7268', 'name': 'John P. Hart', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_9ee74786a8c95815504c87c846cd11ab,10.1002/(sici)1521-4109(199905)11:6<432::aid-elan432>3.0.co;2-r,High Performance Liquid Chromatography-Electrochemical Detection (HPLC-ECD) for the Pharmacokinetic Studies of Acetaminophen with Microdialysis,1999,Guoyue Shi;Fang Xu;Jian Xue;Litong Jin,Guoyue Shi,TRUE,1999/5/1,11,6,432,437,1040-0397;1521-4109,"In this article, we combined microdialysis sampling with HPLC-ECD and studied the pharmacokinetics of acetaminophen. In the mobile phase of phosphate buffer solution (PBS, pH 7.0), the copper tetraaminophthalocyanine (CuTAPC) chemically modified electrode, which was used as working electrode, has good electrocatalytical oxidation of acetaminophen with a detection limit of 2.0 x 10(-7) mol/L and a linear concentration range of 6.0 x 10(-7) mol/L-1.0 x 10(-4) mol/L at +500 mV (vs. Ag/AgCl). In vivo microdialysis is an excellent complement to directly monitor chemical events in different organs and has been widely used for many fields, We applied this method to study the pharmacokinetic of acetaminophen (ACE). The estimated association constant (K) and the number of the binding sites (n) on one molecule of BSA were 5.37 x 10(3) (mol/L)(-1) and 2.57, respectively. The calculated half-life of absorption was 33.0 +/- 1.0 min, and that of elimination was 45.0 +/- 2.0 min.",Chemistry; Electrochemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;esi;scimag,12,16,FALSE,,closed,��ѧ������;�绯ѧ,{},"{'id': 'j_1cd4027b96c82a0218161a2bbf179677', 'zh_title': 'Voltammetric determination of paracetamol at NiO nanoparticles-modified carbon paste electrode in bulk and tablet dosage forms', 'authors': 'Ali Naeemy;Ali Mohammadi;Navid Assi', 'journal': 'Journal of Analytical Chemistry', 'year': '2017'};{'id': 'j_6fb39f17ca5920f4ec3bebe66dab69dc', 'zh_title': 'Effects of capacitance and resistance of MWNT-film coated electrodes on voltammetric detection of acetaminophen', 'authors': 'Qijin Wan;Xiuwen Wang;Fen Yu;Xiaoxia Wang;Nianjun Yang', 'journal': 'Journal of Applied Electrochemistry', 'year': '2009'};{'id': 'j_0ba89b56c5bedb40012a9962db7b1ef5', 'zh_title': 'Detection of chemical warfare agent Nitrogen Mustard-1 based on conducting polymer phthalocyanine nanorod modified electrode', 'authors': 'Virendra V. Singh;Garima Gupta;Rishi Sharma;M. Boopathi;P. Pandey;K. Ganesan;Beer Singh;D.C. Tiwari;Rajeev Jain;R. Vijayaraghavan', 'journal': 'Synthetic Metals', 'year': '2009'};{'id': 'j_bd74205b6b20c75e8fd2c47a270564d8', 'zh_title': 'A sensor for acetaminophen in a blood medium using a Cu(II)-conducting polymer complex modified electrode', 'authors': 'Mannan Boopathi;Mi-Sook Won;Yoon-Bo Shim', 'journal': 'Analytica Chimica Acta', 'year': '2004'};{'id': 'j_94243fd163479001647fcc455e47e798', 'zh_title': 'Sensitive voltammetric determination of 2-mercaptobenzimidazole at electropolymerized nickel and copper tetraaminophthalocyanine membrane modified electrode', 'authors': 'Jie-Ping Fan;Xiao-Min Zhang;Min Ying', 'journal': 'Journal of Solid State Electrochemistry', 'year': '2007'};{'id': 'j_afd7d932dd8398b00bde73e121fe1c3b', 'zh_title': 'Poly(taurine)/MWNT-modified glassy carbon electrodes for the detection of acetaminophen', 'authors': 'Qinjin Wan;Xiuwen Wang;Fen Yu;Xiaoxia Wang;Nianjun Yang', 'journal': 'Journal of Applied Electrochemistry', 'year': '2008'};{'id': 'j_eb8fdc4afb3223d29111380f179b1b4f', 'zh_title': 'Preparation of GCE modified with ZnO@CoFe\n            2\n            O\n            4\n            magnetic nanoparticles and its application in electrocatalytic determination of Acetaminophen', 'authors': 'Karim Asadpour�\Zeynali;Nasrin Lotfi', 'journal': 'Micro & Nano Letters', 'year': '2019'};{'id': 'j_a7e1cb91f249414de7ca73b354dd66b5', 'zh_title': 'Advances in the Voltammetric Analysis of Small Biologically Relevant Compounds', 'authors': 'Nathan S. Lawrence;Emma L. Beckett;James Davis;Richard G. Compton', 'journal': 'Analytical biochemistry', 'year': '2002'};{'id': 'j_15a080c3655e71e20c58462f0604208b', 'zh_title': 'Oxidation of paracetamol by Cu2+\n - formation of the paracetamol radical cation', 'authors': 'Wojciech Ostrowski;Katarzyna Karczewska;Rafa? Fra��ski', 'journal': 'Rapid Communications in Mass Spectrometry', 'year': '2013'};{'id': 'j_4a3efd3a62a75eeb053e7d077a6751fe', 'zh_title': 'Synthesis and characterization of polypyrrole by cyclic voltammetry at different scan rate and its use in electrochemical reduction of the simulant of nerve agents', 'authors': 'Pushpendra K. Sharma;Garima Gupta;Virendra V. Singh;B.K. Tripathi;P. Pandey;M. Boopathi;Beer Singh;R. Vijayaraghavan', 'journal': 'Synthetic Metals', 'year': '2010'};{'id': 'j_8786850e8cded558e759761d89b95a50', 'zh_title': 'A comparative study of the electrochemical characteristics and simultaneous determination of dopamine, acetaminophen, and aspirin at a ruthenium oxide nanoparticles modified glassy carbon electrode versus a bare one', 'authors': 'Fatemeh Chatraei;Hamid R. Zare', 'journal': 'Analytical Methods', 'year': '2012'};{'id': 'j_7b2b9091bad24bfb3033fbadbde2e627', 'zh_title': 'Electrochemical determination of acetaminophen using a glassy carbon electrode coated with a single-wall carbon nanotube-dicetyl phosphate film', 'authors': 'Dong Sun;Huajie Zhang', 'journal': 'MICROCHIMICA ACTA', 'year': '2006'}","{'id': 'j_2de402d4d945779d060ee0a9ad39e938', 'zh_title': 'In vivo microdialysis sampling coupled to liquid chromatography for the study of acetaminophen metabolism', 'authors': 'Dennis O. Scott;Lori R. Sorensen;Craig E. Lunte', 'journal': 'Journal of chromatography', 'year': '1990'};{'id': 'j_86ebb9bea8159df70ae2061a5a1066de', 'zh_title': 'Effect of kynurenine loading on quinolinic acid production in the rat: Studies and', 'authors': 'Carmela Speciale;Urban Ungerstedt;Robert Schwarcz', 'journal': 'Life sciences', 'year': '1988'};{'id': 'j_15f554fed4b99bd95b3c933fd6cb89cb', 'zh_title': 'Pharmacokinetics of intravitreal injection. Assessment of a gentamicin model by ocular dialysis.', 'authors': 'J  Ben-Nun;D A Joyce;R L Cooper;S J Cringle;I J Constable', 'journal': 'Investigative ophthalmology & visual science', 'year': '1989'};{'id': 'j_c5a25d020e6518e4e962b93f4a5a1c78', 'zh_title': 'Adrenal release of catecholamines and Met-enkephalin before and after stress as measured by a novel in vivo dialysis method in the rat', 'authors': 'H. Jarry;E.-M. D��ker;W. Wuttke', 'journal': 'Neuroscience Letters', 'year': '1985'};{'id': 'j_5d79b96a90e813f28515d31820e6b328', 'zh_title': 'Binding of sulfamethoxazole to human serum albumin studied by a combined technique of microdialysis with liquid chromatography', 'authors': 'Hailin Wang;Hanfa Zou;Aisheng Feng;Yukui Zhang', 'journal': 'Analytica Chimica Acta', 'year': '1997'};{'id': 'j_88c84e29a06a10892d45d77f4a2a8a77', 'zh_title': 'In situ studies of catecholamine-induced lipolysis in human adipose tissue using microdialysis.', 'authors': 'P  Arner;E  Kriegholm;P  Engfeldt', 'journal': 'The Journal of pharmacology and experimental therapeutics', 'year': '1990'};{'id': 'j_79f41f43bc6ce1ae372f4e9f7389568f', 'zh_title': 'Electrocatalytic and analytical response of cobalt phthalocyanine containing carbon paste electrodes toward sulfhydryl compounds', 'authors': 'Mary Kim. Halbert;Richard P. Baldwin', 'journal': 'Analytical Chemistry', 'year': '1985'};{'id': 'j_af6af6b0a0eb1b78b368a8274bd4f594', 'zh_title': 'Mathematical theory of complex ligand-binding systems at equilibrium: Some methods for parameter fitting', 'authors': 'Henry A. Feldman', 'journal': 'Analytical biochemistry', 'year': '1972'};{'id': 'j_f3b5ee5a86be032ad4bd9fd8465d833e', 'zh_title': 'Characterization of In Vivo Dopamine Release as Determined by Brain Microdialysis After Acute and Subchronic Implantations: Methodological Aspects', 'authors': 'B. H. C. Westerink;J. B. Vries', 'journal': 'Journal of Neurochemistry', 'year': '1988'};{'id': 'j_ed7c754254d9ff59e1d0337337d6a096', 'zh_title': 'A novel thin-layer amperometric detector based on chemically modified ring-disc electrode and its application for simultaneous measurements of nitric oxide and nitrite in rat brain combined with in vivo microdialysis', 'authors': 'Lanqun Mao;Guoyue Shi;Yu Tian;Haiying Liu;Litong Jin;Katsunobu Yamamoto;Shuguang Tao;Jiye Jin', 'journal': 'Talanta', 'year': '1998'};{'id': 'j_4f8a47090438a07e7851aa5fe53130d2', 'zh_title': 'The Binding of Drugs by Plasma Proteins', 'authors': 'Marvin C. Meyer;David E. Guttman', 'journal': 'Journal of pharmaceutical sciences', 'year': '1968'};{'id': 'j_b2b8cad3aa476dc4c6112abb0d978b2b', 'zh_title': 'Conductive carbon cement as electrode matrix for cobalt phthalocyanine modified electrodes for detection in flowing solutions', 'authors': 'Xinjian Huang;Wim Th. Kok', 'journal': 'Analytica Chimica Acta', 'year': '1993'};{'id': 'j_6e72013c9bcbf2aea65df448dae2ce01', 'zh_title': 'Synthesis and structural studies of metal(II) 4,9,16,23-phthalocyanine tetraamines', 'authors': 'B.N. Achar;G.M. Fohlen;J.A. Parker;J. Keshavayya', 'journal': 'Polyhedron', 'year': '1987'};{'id': 'j_52043a9f3e0ea06d24ce0e69138aeb81', 'zh_title': 'Study of protein-drug binding using capillary zone electrophoresis', 'authors': 'Johan C. Kraak;Sandra Busch;Hans Poppe', 'journal': 'Journal of chromatography', 'year': '1992'};{'id': 'j_77d6c282428b3d702900843fbcf0babe', 'zh_title': 'Free drug measurements: methodology and clinical significance', 'authors': 'Tai C. Kwong', 'journal': 'Clinica chimica acta; international journal of clinical chemistry', 'year': '1985'};{'id': 'j_146507264ad3b46fa37b7c0db907bddb', 'zh_title': 'Binding of Drugs by Albumin Plasma Protein', 'authors': 'Joseph J. Vallner', 'journal': 'Journal of pharmaceutical sciences', 'year': '1977'}","{'person_id': '7e04c1776175f52c4a7694f88719dcc9', 'orcid': ' ', 'name': 'Fang Xu', 'email': '', 'org_name': 'East China Normal University', 'org_id': '98eeb50c0aa6985d7c4e16cddcf9ffb7', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '4e5ea8e71bb2ab1c1b0fc49734905b7f', 'orcid': ' ', 'name': 'Jian Xue', 'email': '', 'org_name': 'East China Normal University', 'org_id': '98eeb50c0aa6985d7c4e16cddcf9ffb7', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '7a6b5004e41009961b08f8671b3b7746', 'orcid': ' ', 'name': 'Litong Jin', 'email': '', 'org_name': 'East China Normal University', 'org_id': '98eeb50c0aa6985d7c4e16cddcf9ffb7', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '01d179fadefecfcc0ca9fcf34287460a', 'orcid': 'https://orcid.org/0000-0002-5900-2209', 'name': 'Guoyue Shi', 'email': '', 'org_name': 'East China Normal University', 'org_id': '98eeb50c0aa6985d7c4e16cddcf9ffb7', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_5874af9c784dd8909a816130d3d6b9f7,10.1002/(sici)1521-4109(199906)11:7<465::aid-elan465>3.0.co;2-#,A Comparative Study of the Electrocatalytic Activities of Some Metal Hexacyanoferrates for the Oxidation of Hydrazine,1999,S. Sriman Narayanan;Fritz Scholz,S. Sriman Narayanan,TRUE,1999/6/1,11,7,465,469,1040-0397;1521-4109,"The electrocatalytic properties of electrodes modified with metal Cr(III), Mn(II), Fe(II), Co(II), Ni(II), Cu(II), Zn(II), Ag(I), Cd(II) and In(III)] hexacyanoferrates(II) were studied by cyclic voltammetry using hydrazine as substrate. The electrodes were prepared by mechanically transferring microparticles of the hexacyanoferrates onto the surface of a paraffin impregnated graphite electrode. The catalytic activities of these compounds were compared based on the ratio of the total current for the catalytic oxidation to the current for the modified electrode. This ratio has been calculated at the peak potentials of the cyclic voltammograms and also at some fixed anodic potentials. As expected for an electrocatalytic reaction, it was observed that the current ratio is higher at slow scan rates and lower at high scan rates. The catalytic activities of hexacyanoferrates are rather complex and they do not follow any uniform pattern. The hexacyanoferrates of manganese, zinc and indium turned out to possess the highest catalytic activity.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,127,23,FALSE,,closed,��ѧ������;�绯ѧ,"{'org_name': '������˹��ѧ', 'org_id': '037eb6bec46f9ab52958be9b56e86b81'};{'org_name': '�鱤������ѧ', 'org_id': '32ddcaf9804b2f3155de9fe29dbb253f'}",{},"{'id': 'j_5764fcf577c895da3da7c6abd3e0a00c', 'zh_title': 'Electrochemical and Spectroscopic Studies of Metal Hexacyanometalate Films: I . Cupric Hexacyanoferrate', 'authors': 'Lorraine M. Siperko;Theodore Kuwana', 'journal': 'Journal of The Electrochemical Society', 'year': '1983'};{'id': 'j_b2d3c36d1a1f25c74810187c396247b6', 'zh_title': 'Electrochemical Oxidation and Reduction of Thin Films of Prussian Blue', 'authors': 'Vernon D. Neff', 'journal': 'Journal of The Electrochemical Society', 'year': '1978'};{'id': 'j_77bb20606a23e42d356d2b1f54b65706', 'zh_title': 'Electrocatalytic oxidation of hydrazine at a Prussian Blue-modified glassy carbon electrode', 'authors': 'Ursula Scharf;Erich W. Grabner', 'journal': 'Electrochimica Acta', 'year': '1996'};{'id': 'j_4b4709efe55754bd18673124a8411c53', 'zh_title': 'Electro-oxidation of hydrazine on mercury, silver and gold electrodes in alkaline solutions', 'authors': 'K. Ko?��nek;J. Koryta;M. Musilov��', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1969'};{'id': 'j_1ab97000da97a60c7ba67ab02f5fda80', 'zh_title': 'Hexacyanoferrate-based composite ion-sensitive electrodes for voltammetry', 'authors': 'Heike D��ssel;Ale? Dostal;Fritz Scholz', 'journal': ""Fresenius' Journal of Analytical Chemistry"", 'year': '1996'};{'id': 'j_1e83ec4efe3f0b5db5ac89bb0cf35154', 'zh_title': 'Anodic oxidation of hydrazine on glassy carbon modified by macrocyclic transition metal complexes', 'authors': 'Baochen Wang;Xueqiang Cao', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1991'};{'id': 'j_0bd50020a12c599a5773f36826bb1c81', 'zh_title': 'Reverse-phase ion-pair partition chromatography.  Comments', 'authors': 'Peter T. Kissinger', 'journal': 'Analytical Chemistry', 'year': '1977'};{'id': 'j_9c83e7d5f34020d12b58fefb8a5bedc6', 'zh_title': 'Amperometric detection of nonelectroactive cations in flow systems at a cupric hexacyanoferrate electrode', 'authors': 'Karsten N. Thomsen;Richard P. Baldwin', 'journal': 'Analytical Chemistry', 'year': '1989'};{'id': 'j_4c92c7ed8eb6f7508605205482f10eee', 'zh_title': 'The oxidation of hydrazine at a nickel anode in alkaline solution', 'authors': 'M. Fleischmann;K. Korinek;D. Pletcher', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1972'};{'id': 'j_b86ccbbcd983d79c151eb6ea93cc37b8', 'zh_title': 'Electrocatalytic oxidation of thiosulfate by metal hexacyanoferrate film modified electrodes', 'authors': 'Shen-Ming Chen', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1996'};{'id': 'j_78e9e6e421e80bd601bf3903e3cb5060', 'zh_title': 'Electrocatalytic oxidation of hydrazine at cobalt hexacyanoferrate- modified glassy carbon, Pt and Au electrodes', 'authors': 'S. M. Golabi;F. Noor-Mohammadi', 'journal': 'Journal of Solid State Electrochemistry', 'year': '1998'};{'id': 'j_73687bd3833208b8945528617a326e16', 'zh_title': 'Electrochemistry of polynuclear transition metal cyanides: Prussian blue and its analogues', 'authors': 'Kingo Itaya;Isamu Uchida;Vernon D. Neff', 'journal': 'Accounts of Chemical Research', 'year': '1986'};{'id': 'j_51cc5d30e7619d92dd9bf98911b93d44', 'zh_title': 'Prussian Blue coated quartz crystal microbalance as a detector for electroinactive cations in aqueous solution', 'authors': 'Mark R. Deakin;Houston. Byrd', 'journal': 'Analytical Chemistry', 'year': '1989'};{'id': 'j_3f802c51b9a134d95a2874fb57d2696d', 'zh_title': 'The Voltammetric Characteristics and Mechanism of Electro?xidation of Hydrazine', 'authors': 'Stewart. Karp;Louis. Meites', 'journal': 'Journal of the American Chemical Society', 'year': '1962'};{'id': 'j_5c757afb24626afb1b55221ec780d0c5', 'zh_title': 'Evaluation of electrodes coated with metal hexacyanoferrate as amperometric sensors for nonelectroactive cations in flow systems', 'authors': 'Karsten N. Thomsen;Richard P. Baldwin', 'journal': 'Electroanalysis', 'year': '1990'};{'id': 'j_f7c3f6bb5ff8da5b5c7023bc3b22897f', 'zh_title': 'Electrocatalysis of hydrazine electrooxidation by phthalocyamines adsorbed on graphite', 'authors': 'Jose H. Zagal', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1980'};{'id': 'j_0d6f7b8ca67f48c58492108ec381fa48', 'zh_title': 'The formation of bilayered nickel-iron, cadmium-iron and cadmium��silver hexacyanoferrates by an electrochemically driven insertion��substitution mechanism', 'authors': 'Ale? Dostal;Michael Hermes;Fritz Scholz', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1996'};{'id': 'j_14882b61d4700161c8d111a461cb5141', 'zh_title': 'Liquid chromatography with electrocatalytic detection of cysteine, N-acetylcysteine and glutathione by a prussian blue film-modified electrode', 'authors': 'Weiying Hou;Erkang Wang', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1991'};{'id': 'j_3844508d480a5081f891afb4974999e2', 'zh_title': 'Electro�\Oxidation of Hydrazine Catalyzed by Sulfonated Phthalocyanines Adsorbed on a Graphite Electrode', 'authors': 'Jos�� Zagal;Soledad Ureta�\Za?artu', 'journal': 'Journal of The Electrochemical Society', 'year': '1982'};{'id': 'j_895645f1eaccb47051878f0fdc63fb6d', 'zh_title': 'Electrocatalytic oxidation of thiosulfate on a modified nickel hexacyanoferrate film electrode', 'authors': 'Xingyao Zhou;Shengfu Wang;Zhengpin Wang;Mian Jiang', 'journal': ""Fresenius' Journal of Analytical Chemistry"", 'year': '1993'};{'id': 'j_2b66451ac27f4d0a72498f9398b2095b', 'zh_title': 'Electrochemical Study of Microcrystalline Solid Prussian Blue Particles Mechanically Attached to Graphite and Gold Electrodes: Electrochemically Induced Lattice Reconstruction', 'authors': 'Ales Dostal;Birgit Meyer;Fritz Scholz;Uwe Schroeder;Alan M. Bond;Frank Marken;Shannon J. Shaw', 'journal': 'The Journal of Physical Chemistry', 'year': '1995'};{'id': 'j_5387c7e4d02f4717978dadf4d185e708', 'zh_title': 'Electrocatalytic oxidation and amperometric determination of sulfhydryl compounds at a copper hexacyanoferrate film glassy carbon electrode in liquid chromatography', 'authors': 'Jianxun Zhou;Erkang Wang', 'journal': 'Electroanalysis', 'year': '1994'};{'id': 'j_438a9e44f3fbf763cc2f5cd9a3647786', 'zh_title': 'Reaction of nickel electrode surfaces with anionic metal-cyanide complexes: formation of precipitated surfaces', 'authors': 'Sujit Sinha;Brian D. Humphrey;Andrew B. Bocarsly', 'journal': 'Inorganic Chemistry', 'year': '1984'}","{'person_id': '62724db019178cd0e7c29a60dd274000', 'orcid': 'https://orcid.org/0000-0001-6287-1184', 'name': 'Fritz Scholz', 'email': '', 'org_name': 'University of Madras', 'org_id': 'a1247a953b9cb3bdd755488c3904e545', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '141c22a7862f33272015663454461738', 'orcid': 'https://orcid.org/0000-0003-0519-4011', 'name': 'S. Sriman Narayanan', 'email': '', 'org_name': 'Humboldt-Universit?t zu Berlin', 'org_id': 'd4bb161a3c0ea21550f627e7bacfa3b1', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_222183e15c92cc53f4b1866eaf417006,10.1002/(sici)1521-4109(199906)11:8<553::aid-elan553>3.0.co;2-6,Electropolymerized Azines: Part II. In a Search of the Best Electrocatalyst of NADH Oxidation,1999,Arkady A. Karyakin;Elena E. Karyakina;Wolfgang Schuhmann;Hanns-Ludwig Schmidt,Arkady A. Karyakin,TRUE,1999/6/1,11,8,553,557,1040-0397;1521-4109,"A comparative investigation of catalytic activity of different polyazines in NADH electrooxidation is reported. The structure of azine monomers taken for electropolymerization was varied systematically changing both the second heteroatom and the substituents of aromatic rings. It was found that the monomer structure affects catalytic activity of the resulting polymer in the following way: (i) additional substitution of benzene ring by alkyl group reduced the catalytic activity, (ii) polymerized phenoxazine Brilliant Cresyl Blue was a better electrocatalyst than the corresponding phenothiazine (o-Toluidine Blue), (iii) ring substitution with only tertiary nitrogen atoms as ligands provides higher catalytic activity, (iv) higher redox potential of the polymer also provides higher catalytic activity.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,136,25,FALSE,,closed,��ѧ������;�绯ѧ,{},{},"{'id': 'j_94fbf29e0e59ef6e9118fb4946f1dcf7', 'zh_title': 'Catalytic oxidation of NADH by surface-modified graphite electrodes', 'authors': 'Arne Torstensson;Lo Gorton', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1981'};{'id': 'j_9ee84ac6ba64782b26ed9de77cdfd214', 'zh_title': 'Alcohol, lactate and glutamate sensors based on oxidoreductases with regeneration of nicotinamide adenine dinucleotide', 'authors': 'A. Malinauskas;J. Kulys', 'journal': 'Analytica Chimica Acta', 'year': '1978'};{'id': 'j_4cd87805efa463c3c376926c1c85ae1c', 'zh_title': 'The electrochemical polymerization of Methylene Blue and bioelectrochemical activity of the resulting film', 'authors': 'A.A. Karyakin;A.K. Strakhova;E.E. Karyakina;S.D. Varfolomeyev;A.K. Yatslmirsky', 'journal': 'Synthetic Metals', 'year': '1993'};{'id': 'j_9fcd033064bbc29c791d6e76d213ca5c', 'zh_title': 'ACS Symposium Series] Biosensors and Chemical Sensors Volume 487 (Optimizing Performance Through Polymeric Materials) || Electrocatalytic Oxidation of Nicotinamide Adenine Dinucleotide Cofactor at Chemically Modified Electrodes', 'authors': 'Edelman, Peter G.; Wang, Joseph ', 'year': '1992'};{'id': 'j_f603ff137eb5a443e970f620fa7f29bf', 'zh_title': 'Electrochemical oxidation of reduced nicotinamide adenine dinucleotide', 'authors': 'W. J. Blaedel;Roger A. Jenkins', 'journal': 'Analytical Chemistry', 'year': '1975'};{'id': 'j_6928f6f0680ee378ae93f105c7bc15ac', 'zh_title': 'Electrocatalysis of dihydronicotinamide adenosine diphosphate with quinones and modified quinone electrodes', 'authors': 'Daniel Chi-Sing. Tse;Theodore. Kuwana', 'journal': 'Analytical Chemistry', 'year': '1978'};{'id': 'j_3506c9f9743e3fa1ed6c04b0103d7464', 'zh_title': 'New amperometric dehydrogenase electrodes based on electrocatalytic NADH-oxidation at poly (methylene blue)-modified electrodes', 'authors': 'Arkady A. Karyakin;Elena E. Karyakina;Wolfgang Schuhmann;Hanns-Ludwig Schmidt;Sergei D. Varfolomeyev', 'journal': 'Electroanalysis', 'year': '1994'};{'id': 'j_2dd66d2b349ac242bceb6d318bf1c5a5', 'zh_title': 'A kinetic study of the reaction between dihydronicotinamide adenine dinucleotide (NADH) and an electrode modified by adsorption of 1,2-benzophenoxazine-7-one', 'authors': 'Lo Gorton;Gillis Johansson;Arne Torstensson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1985'};{'id': 'j_616213e5ca47b376cc27fbbfd763bbda', 'zh_title': 'Catalysis of the reduction of molecular oxygen to water at Prussian blue modified electrodes', 'authors': 'Kingo Itaya;Nobuyoshi Shoji;Isamu Uchida', 'journal': 'Journal of the American Chemical Society', 'year': '1984'};{'id': 'j_54cdc70627ad7d21c8b026a7d1649ea2', 'zh_title': 'Electrochemical characterization of immobilized NAD+', 'authors': 'Masuo Aizawa;Robert W. Coughlin;Marvin Charles', 'journal': 'Biochimica et biophysica acta', 'year': '1976'};{'id': 'j_de3599aa9071ecae95e25b459015757c', 'zh_title': 'Chemically modified electrodes for the electrocatalytic oxidation of nicotinamide coenzymes', 'authors': 'Lo Gorton', 'journal': 'Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry in Condensed Phases', 'year': '1986'};{'id': 'j_d06261a461d6c9bb724681ab7a6b41b5', 'zh_title': 'Electrochemical polymerization of toluidine blue and its application for the amperometric determination of ��-d-glucose', 'authors': 'Dong-mei Zhou;Jian-Jun Sun;Hong-yuan Chen;Hui-qun Fang', 'journal': 'Electrochimica Acta', 'year': '1998'};{'id': 'j_b2f2e2e4d65d1e5387aed89dd291ee99', 'zh_title': 'Electropolymerized Azines: A New Group of Electroactive Polymers', 'authors': 'Arkady A Karyakin;Elena E Karyakina;Hanns-Ludwig Schmidt', 'journal': 'Electroanalysis', 'year': '1999'};{'id': 'j_b73fc73b4474cef1a44b477e728b9ec9', 'zh_title': 'Electrocatalysis of NADH Oxidation with Electropolymerized Films of 3,4-Dihydroxybenzaldehyde', 'authors': 'F. Pariente;E. Lorenzo;H. D. Abruna', 'journal': 'Analytical Chemistry', 'year': '1994'};{'id': 'j_fd930cd27cf928ebfdfbc806c108686b', 'zh_title': 'Chloranil as a Catalyst for the Electrochemical Oxidation of NADH to NAD+', 'authors': 'Horst Huck;Hanns-Ludwig Schmidt', 'journal': 'Angewandte Chemie', 'year': '1981'};{'id': 'j_091d21944885f0e70127ada33c076b5b', 'zh_title': 'Improvement of Electrochemical Biosensors Using Enzyme Immobilization from Water?Organic Mixtures with a High Content of Organic Solvent', 'authors': 'Arkady A. Karyakin;Elena E. Karyakina;Lo Gorton;Oksana A. Bobrova;Lylia V. Lukachova;Alexander K. Gladilin;Andrey V. Levashov', 'journal': 'Analytical Chemistry', 'year': '1996'};{'id': 'j_be81665e1756f16f96336d12adc9091e', 'zh_title': 'Thermodynamics and kinetics of adsorption and electrocatalysis of NADH oxidation with a self-assembling quinone derivative', 'authors': 'E. Lorenzo;L. S��nchez;F. Pariente;J. Tirado;H.D. Abru?a', 'journal': 'Analytica Chimica Acta', 'year': '1995'};{'id': 'j_583a4438082a583976b5de86f5ee368c', 'zh_title': 'Preparation of Poly(thionine)-Modified Electrode and Its Application to an Electrochemical Detector for the Flow-Injection Analysis of NADH.', 'authors': 'Koichiro TANAKA;Shin IKEDA;Noboru OYAMA;Koichi TOKUDA;Takeo OHSAKA', 'journal': 'Analytical Sciences', 'year': '1993'};{'id': 'j_4d2dc94a3625f8278696059ad67a3a04', 'zh_title': 'Cofactor modified electrodes', 'authors': 'Lemuel B. Wingard', 'journal': 'Trends in Analytical Chemistry', 'year': '1984'};{'id': 'j_080647d0e6cf13dc5585eca974e99778', 'zh_title': 'An electrode modified with polymer-bound dopamine which catalyzes NADH oxidation', 'authors': 'Chantal Degrand;Larry L. Miller', 'journal': 'Journal of the American Chemical Society', 'year': '1980'};{'id': 'j_fd5eeb05b0c44caddc8c143a2e0e2630', 'zh_title': 'New principles of amperometric enzyme electrodes and of reagentless oxidoreductase biosensors', 'authors': 'H.-L. Schmidt;F. Gutberlet;W. Schuhmann', 'journal': 'Sensors and Actuators B-chemical', 'year': '1993'};{'id': 'j_c4330c6908462912d43d47f7c518af5f', 'zh_title': 'Covalent binding of an NAD+ analogue to horse liver alcohol dehydrogenase in a ternary complex with pyrazole', 'authors': 'Philippe GOULAS', 'journal': 'European journal of biochemistry', 'year': '1987'};{'id': 'j_fd1a5eaf21cc8b1a7dd367fb5c671d3f', 'zh_title': 'Electrocatalytic oxidation of reduced nicotinamide coenzymes by graphite electrodes modified with an adsorbed phenoxazinium salt, meldola blue', 'authors': 'Lo Gorton;Arne Torstensson;Hans Jaegfeldt;Gillis Johansson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1984'};{'id': 'j_df7259982f07a111e527771447953d91', 'zh_title': 'The electrochemical polymerization of methylene blue and bioelectrochemical activity of the resulting film', 'authors': 'A.A. Karyakin;A.K. Strakhova;E.E. Karyakina;S.D. Varfolomeyev;A.K. Yatsimirsky', 'journal': 'Bioelectrochemistry and Bioenergetics', 'year': '1993'};{'id': 'j_5891ec15669ac34b9005eb4a33777266', 'zh_title': 'Electrocatalysis of NADH oxidation with electropolymerized films of azure I', 'authors': 'Chen-Xin Cai;Kuan-Hong Xue', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1997'}","{'person_id': '73cfc662e4d777ad473dd4941959513f', 'orcid': ' ', 'name': 'Elena E. Karyakina', 'email': '', 'org_name': 'Lomonosov Moscow State University', 'org_id': 'ab1baf17aaf8b87d798acb9c559dae18', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '7478ead81c58e195d1e066a3dc8ce0e3', 'orcid': ' ', 'name': 'Hanns-Ludwig Schmidt', 'email': '', 'org_name': 'Technical University of Munich', 'org_id': 'cec47d9073b162dd003de3d6590fe8d5', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '43e320d036382e64e8f4fc8af87bba20', 'orcid': 'https://orcid.org/0000-0002-0457-7638', 'name': 'Arkady A. Karyakin', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'af8735b7aa520b7a570554d377aa166a', 'orcid': 'https://orcid.org/0000-0003-2916-5223', 'name': 'Wolfgang Schuhmann', 'email': '', 'org_name': 'Technical University of Munich', 'org_id': 'cec47d9073b162dd003de3d6590fe8d5', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_16113c5d15d00c2eea1151cb89034fa6,10.1002/(sici)1521-4109(199907)11:10/11<719::aid-elan719>3.0.co;2-s,"Electrochemical Study of Flavins, Phenazines, Phenoxazines and Phenothiazines Immobilized on Zirconium Phosphate",1999,L. T. Kubota;L. Gorton,L. T. Kubota,TRUE,1999/7/1,11,10��11��,719,728,1040-0397;1521-4109,"Adsorption of a number of flavins, phenazines, phenoxazines, and phenothiazines on zirconium phosphate (ZP) was carried out in aqueous solution. The adsorbed organic dyes on ZP were used to prepare modified carbon paste electrodes. The electrochemical properties of the immobilized dyes were investigated and also their possible use to electrocatalytically oxidize NADH. The formal potential (E0��) of most of the adsorbed flavins, phenoxazines, and phenothiazines shifted markedly towards more positive potentials compared with their values in solution. The pH of the contacting solution did not affect their E0��-values between pH 1 and 9. The phenazines did neither present good electrochemical response nor electrocatalytic activity for NADH oxidation and their E0��-values remained pH dependent. In contrast, adsorbed flavins, phenoxazines, and phenothiazines presented good electron transfer rates between the electrode and the adsorbed molecule dye at pH 7.0.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,69,61,FALSE,,closed,��ѧ������;�绯ѧ,"{'org_name': '��Ƥ��˹������ѧ', 'org_id': '16f2f3eb6c8de0da8681d947fe489312'};{'org_name': '¡�´�ѧ', 'org_id': '95179179005f3fb97ecc0a2cebaba91e'}","{'id': 'j_e4db45e82d11c2bcda88818319ecfb8f', 'zh_title': 'Comparative Study of the Reduction of Phenoxazine and Phenothiazine Dyes by NADH in Aqueous Solution (Sulu ??zeltide Fenoksazin ve Fenotiyazin Boyalarin NADH ile ?ndirgenmesinin', 'authors': '?zden  Tacal', 'year': '2009'};{'id': 'j_f5061fe276b70ae477f633fee2c221ce', 'zh_title': 'Photoelectrocatalytic Oxidation of NADH at a Graphite Electrode Modified with a New Polymeric Phenothiazine', 'authors': 'Delia Gligor;Yusuf Dilgin;Ionel\u2005Catalin Popescu;Lo Gorton', 'journal': 'Electroanalysis', 'year': '2009'};{'id': 'j_84303015020701610627fbad2ab938fd', 'zh_title': 'A kinetic perspective on extracellular electron transfer by anode-respiring bacteria', 'authors': 'C��sar I. 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+j_7c9370c538452e4c1f5b2ba6018111d0,10.1002/(sici)1521-4109(199907)11:9<623::aid-elan623>3.0.co;2-a,Determination of Iodate in Salt Samples with Amperometric Detection at a Molybdenum Oxide Modified Electrode,1999,Luis Kosminsky;Mauro Bertotti,Luis Kosminsky,TRUE,1999/7/1,11,9,623,626,1040-0397;1521-4109,"A method for the amperometric determination of iodate in a flow injection configuration is described. The electroreduction of the analyte occurs at a glassy carbon disk electrode modified by a molybdenum oxide layer electrochemically deposited, the film acting as an efficient electrocatalyst for the mass transport controlled reduction of iodate. The sensor is applied to the determination of iodate in a wall-jet cell coupled to a flow injection apparatus after convenient deoxygenation of the carrier solution. The linear response of the sensor is extended from 10��10�C6?mol?L�C1 to 10��10�C3?mol?L�C1 iodate with a limit of detection (signal-to-noise=2) of 6��10�C6?mol?L�C1. The repeatability of the method for injections of a 50��10�C6 mol L�C1 iodate solution was 6?% (n = 22). Interference from other oxidant anions (nitrate, nitrite and perchlorate) was not noticeable, whereas bromate interferes at concentrations up to 10 times that of iodate. The method was used in the determination of the iodate content in commercial salt samples.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,44,18,FALSE,,closed,�绯ѧ;��ѧ������,"{'org_name': 'ʥ���޴�ѧ', 'org_id': '19296df04aa6b53eea3dc756cf666f2f'}","{'id': 'j_ae2a6c697a0deaa8ba5ea62d996669e3', 'zh_title': 'A single pump cycling-column-switching technique coupled with homemade high exchange capacity columns for the determination of iodate in iodized edible salt by ion chromatography with UV detection', 'authors': 'Zhongping Huang;Qamar Subhani;Zuoyi Zhu;Weiqiang Guo;Yan Zhu', 'journal': 'FOOD CHEMISTRY', 'year': '2013'};{'id': 'j_5277203206654e8a1ccc22b5d56bea39', 'zh_title': 'Flow injection amperometry for the determination of iodate in iodized table salt', 'authors': 'Jaroon Jakmunee;Kate Grudpan', 'journal': 'Analytica Chimica Acta', 'year': '2001'};{'id': 'j_8bbeee54bd33d22a542f372e610dfd9a', 'zh_title': 'Determination of Iodate in Iodized Salt by Reversed-Phase High-Performance Liquid Chromatography with UV Detection', 'authors': 'X. R. Xu;H. B. Li;J.-D. Gu;K. J. Paeng', 'journal': 'CHROMATOGRAPHIA', 'year': '2004'};{'id': 'j_f69a8139db6f0b4dfed88b15a8813d79', 'zh_title': 'Electrocatalytic Reduction and Determination of Iodate and Periodate at Silicomolybdate-Incorporated-Glutaraldehyde- Cross-Linked Poly-L-lysine Film Electrodes', 'authors': 'Yu-Ching Pan;R. Thangamuthu;Shen-Ming Chen', 'journal': 'Electroanalysis', 'year': '2010'};{'id': 'j_9768c69725e754825bc5e77e9173fa63', 'zh_title': 'Fabrication of a Polymer/Mediator Composite Modified Electrode and its Application to Electrochemical Detection of Iodate', 'authors': 'Ta-Jen Li;Chia-Yu Lin;A. Balamurugan;Chung-Wei Kung;Jen-Yuan Wang;Chih-Wei Hu;Chun-Chieh Wang;Po-Yen Chen;R. Vittal;Kuo-Chuan Ho', 'journal': 'Procedia Engineering', 'year': '2011'};{'id': 'j_1ca4b058e6f7bbcb641f84f8be2e58f5', 'zh_title': 'Flow Injection Analysis of Iodate Reduction on PEDOT Modified Electrode', 'authors': 'A. Balamurugan;Shen-Ming Chen', 'journal': 'Electroanalysis', 'year': '2008'};{'id': 'j_da486147bbc7104311f21d9b772717c9', 'zh_title': 'Electrochemical Preparation of a Nanostructured Poly(amino napthalene sulfonic acid) Electrode Using CTAB as a Soft Template and Its Electrocatalytic Application for the Reduction of Iodate', 'authors': 'A. Balamurugan;Chia-Yu Lin;Po-Chin Nien;Kuo-Chuan Ho', 'journal': 'Electroanalysis', 'year': '2011'};{'id': 'j_f24e20dcec0116d2cbd64819e7300114', 'zh_title': 'Electrocatalytic thin films based on nordihydroguaiaretic acid-functionalyzed polyaniline', 'authors': 'Grzegorz Milczarek', 'journal': 'Reactive & Functional Polymers', 'year': '2008'};{'id': 'j_6ef3f59b3adbd227594ceaf69f33858c', 'zh_title': 'Electrochemical determination of iodide on a vanadium oxide�Cpolypropylene carbonate coated glassy carbon electrode', 'authors': 'L TIAN;L LIU;L CHEN;N LU;H XU', 'journal': 'TALANTA', 'year': '2005'};{'id': 'j_09d59cf673b63ffda1472a7596d43bb7', 'zh_title': 'Anodic oxidation of free nitric oxide at gold electrodes modified by a film of trans-Ru(III)(NH3)4(SO4)4pic]+ and molybdenum oxide', 'authors': 'V Mori;J.C Toledo;H.A.S Silva;D.W Franco;Mauro Bertotti', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2003'};{'id': 'j_c62fbefb4c64a516182a91c1406f7dec', 'zh_title': 'Highly sensitive and selective amperometric sensors for nanomolar detection of iodate and periodate based on glassy carbon electrode modified with iridium oxide nanoparticles', 'authors': 'Abdollah Salimi;Rahman Hallaj;Begard Kavosi;Behzad Hagighi', 'journal': 'Analytica chimica acta', 'year': '2010'};{'id': 'j_9562f74e99cd882760ac0db65280cd36', 'zh_title': 'Amperometric detection of nitrite, iodate and periodate at glassy carbon electrode modified with catalase and multi-wall carbon nanotubes', 'authors': 'Abdollah Salimi;Abdollah Noorbakhsh;Mohammad Ghadermarzi', 'journal': 'Sensors and Actuators B-chemical', 'year': '2007'};{'id': 'j_a7e1cb91f249414de7ca73b354dd66b5', 'zh_title': 'Advances in the Voltammetric Analysis of Small Biologically Relevant Compounds', 'authors': 'Nathan S. Lawrence;Emma L. Beckett;James Davis;Richard G. Compton', 'journal': 'Analytical biochemistry', 'year': '2002'};{'id': 'j_ebdeac4c4fcda11aaead6556d666be86', 'zh_title': 'HPLC-DAD Determination of Iodide in Mineral Waters on Phosphatidylcholine Column', 'authors': 'Ma?gorzata Tatarczak-Michalewska;Jolanta Flieger;Justyna Kawka;Wojciech Flieger;Eliza Blicharska', 'journal': 'Molecules', 'year': '2019'};{'id': 'j_ec7b87fbe560c2173c28ae35ee3c208d', 'zh_title': 'Fabrication of an ultrasensitive impedimetric electrochemical sensor based on graphene nanosheet/polyethyleneimine/gold nanoparticle composite', 'authors': 'Azadeh Azadbakht;Amir Reza Abbasi;Zohreh Derikvand;Ziba Karimi', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2015'};{'id': 'j_150fec197a528f4a16cc5b674c8d1c53', 'zh_title': 'Design and fabrication of a microelectrode array for iodate quantification in small sample volumes', 'authors': 'Denise Lowinsohn;Henrique E.M. Peres;Luis Kosminsky;Thiago R.L.C. Paix?o;Tiago L. Ferreira;Francisco J. Ramirez-Fernandez;Mauro Bertotti', 'journal': 'Sensors and Actuators B-chemical', 'year': '2006'};{'id': 'j_022a212dd2324d81e931e1006d31ac8c', 'zh_title': 'Highly sensitive and selective amperometric sensor for iodate based on 9,10-phenanthrenequinone derived graphene', 'authors': 'Hong-juan Wang;Na-na Cheng;Xiao-yang Yang;Xiao-meng Li;Lian-de Zhu', 'journal': 'CHEMICAL RESEARCH IN CHINESE UNIVERSITIES', 'year': '2013'};{'id': 'j_18e20762179a4487fb733542db98bafd', 'zh_title': 'Flow�\Injection Analysis with Electrochemical Detection', 'authors': 'Fabiana S. Felix;L��cio  Angnes;Alberto  Escarpa;Mar��a Cristina Gonz��lez;Miguel ��ngel L��pez', 'year': '2015'};{'id': 'j_6f61fa13260d77a1779ce643e32702bc', 'zh_title': 'A highly sensitive method for the analysis of nitrite ions by capillary zone electrophoresis using water-soluble aminophenylporphyrin derivative as chromogenic reagent', 'authors': 'Paolo Andrighetto;Tommaso Carofiglio;Roberto Fornasier;Umberto Tonellato', 'journal': 'ELECTROPHORESIS', 'year': '2000'};{'id': 'j_397af757a6a797fe2813f9ebb129380f', 'zh_title': 'Electrochemical Energy Storage and Conversion] Electrochemical Reduction of Carbon Dioxide (Fundamentals and Technologies) || Catalysis of CO2 Electroreduction', 'authors': 'Qiao, Jinli; Liu, Yuyu; Zhang, Jiujun ', 'year': '2016'};{'id': 'j_b5b7c0d24070a69d4f8776a309994684', 'zh_title': 'Fabrication of amorphous mixed-valent molybdenum oxide film electrodeposited on a glassy carbon electrode and its application as a electrochemistry sensor of iodate', 'authors': 'Li Tian;Li Liu;Li Chen;Nan Lu;Hongding Xu', 'journal': 'SENSORS AND ACTUATORS B-CHEMICAL', 'year': '2005'};{'id': 'j_be435482891fe60e491590a4e9ff2564', 'zh_title': 'Molybdenum, Molybdenum Oxides, and their Electrochemistry', 'authors': 'Viswanathan S. Saji;Chi�\Woo Lee', 'journal': 'ChemSusChem', 'year': '2012'};{'id': 'j_2aca8430a2d268fd630dfbc2df017dd9', 'zh_title': 'Anodic Oxidation of Nitrite at a Molybdenum Oxide Layer', 'authors': 'Jos�� R. C. Rocha;Lu��s Kosminsky;Thiago R. L. C. Paix?o;Mauro Bertotti', 'journal': 'Electroanalysis', 'year': '2001'};{'id': 'j_6cfff098dbdf4a4f81f47b8e793f2133', 'zh_title': 'Immobilized organoruthenium(II) complexes onto polyethyleneimine-wrapped carbon nanotubes/in situ formed gold nanoparticles as a novel electrochemical sensing platform', 'authors': 'Azadeh Azadbakht;Amir Reza Abbasi;Zohreh Derikvand;Shiba Amraei', 'journal': 'Materials Science and Engineering: C', 'year': '2015'};{'id': 'j_47a25b717e7aeb94d49a9d4b484aa4be', 'zh_title': 'Glassy carbon electrode modified with an ordered mesoporous carbon/Ag nanoparticle nanocomposite for the selective detection of iodate', 'authors': 'Hassan Heidari;Biuck Habibi;Fatemeh Bonyadi Vaigan', 'journal': 'Anal. Methods', 'year': '2016'};{'id': 'j_7a862f4f9eabbef35323e6a2782045bb', 'zh_title': 'An��lise de iodato em sais de cozinha', 'authors': 'Gutto Raffyson Silva de Freitas;Humberto da Silva Junior;Francisco R��gis da Silva Pereira;Robson Fernandes de Farias;Francisco Claudece Pereira', 'journal': 'Ecl��tica Qu��mica', 'year': '2011'};{'id': 'j_9af3aaa4644e451c1c3ea49d1a1df96c', 'zh_title': 'Electrochemical Characterization and Application of Carbon Ionic Liquid Electrodes Containing 1\u2009:\u200912 Phosphomolybdic Acid', 'authors': 'Behzad Haghighi;Hassan Hamidi', 'journal': 'Electroanalysis', 'year': '2009'};{'id': 'j_afa01541fdb85b59096c33c8be87a2ff', 'zh_title': 'Immobilization of molybdenum oxide in polyaniline and electrocatalytic properties of the composite modified electrode', 'authors': 'Li-Jun Bian;Jiang-Hua Zhang;Ji Qi;Xiao-Xia Liu;Diamond Dermot;King-Tong Lau', 'journal': 'SENSORS AND ACTUATORS B-CHEMICAL', 'year': '2010'};{'id': 'j_42620c6df4aae8cf2fbc0035ee6ae0ec', 'zh_title': 'Spectrophotometric determination of oxyhalides with N,N-diethylaniline', 'authors': 'O. A. Zaporozhets;O. S. Pogrebnyak;N. N. Vizir', 'journal': 'Journal of Analytical Chemistry', 'year': '2012'};{'id': 'j_a2c3cd3a8e6ad9229cb2cc9d0f5e0aa2', 'zh_title': 'Reverse flow injection spectrophotometric determination of iodate and iodide in table salt', 'authors': 'Zhihai Xie;Jingchan Zhao', 'journal': 'TALANTA', 'year': '2004'};{'id': 'j_b4937ff4415ca67334f8dd943a222bd4', 'zh_title': 'A New Electrochemical Method to Detect Sunset Yellow, Tartrazine and Thiomersal in a Pharmaceutical Dose Using a Carbon Paste Electrode Decorated with Molybdenum Oxide', 'authors': 'Johisner Penagos�\Llanos;Olimpo Garc��a�\Beltr��n;Edgar Nagles;John J. Hurtado', 'journal': 'Electroanalysis', 'year': '2020'};{'id': 'j_715bbb239358e95d10f05b9d5264b7d1', 'zh_title': 'Iodate Sensing Electrodes Based on Phosphotungstate- Doped-Glutaraldehyde-Cross-Linked Poly-L-lysine Coatings', 'authors': 'R. Thangamuthu;Yu-Ching Pan;Shen-Ming Chen', 'journal': 'Electroanalysis', 'year': '2010'};{'id': 'j_f1f3009b928d18ba31b435d81650f302', 'zh_title': 'Use of electrochemically pretreated glassy carbon electrodes as pH sensors in potentiometric titrations', 'authors': 'Thiago R.L.C Paix?o;Luis Kosminsky;Mauro Bertotti', 'journal': 'Sensors and Actuators B-chemical', 'year': '2002'};{'id': 'j_92e97d5fff6cc8a678c50e02b22d0e86', 'zh_title': 'Electrochemical reduction and flow detection of iodate on (Bu4N)2Mo6O19 self-assembled monolayer', 'authors': 'Li Chen;Xuefei Tian;Li Tian;Li Liu;Wenbo Song;Hongding Xu', 'journal': 'ANALYTICAL AND BIOANALYTICAL CHEMISTRY', 'year': '2005'};{'id': 'j_3aba14bb089394e4966d5cc22cc7c8b0', 'zh_title': 'Kinetic catalytic determination of trace levels of iodide based on the oxidation of basic dyes with hydrogen peroxide monitored potentiometrically using simple PVC electrodes', 'authors': 'Elmorsy Khaled;M.A. El-Ries;F.I. Zidane;S.A. Ibrahim;M.S. Abd-Elmonem', 'journal': 'Talanta', 'year': '2011'};{'id': 'j_7b0918dd1f1f19e9bfd3e5cc6bdb15c5', 'zh_title': 'Fabrication of 9,10-phenanthrenequinone/carbon nanotubes composite modified electrode and its electrocatalytic property to the reduction of iodate', 'authors': 'Danzi Sun;Liande Zhu;Haiping Huang;Guoyi Zhu', 'journal': 'JOURNAL OF ELECTROANALYTICAL CHEMISTRY', 'year': '2006'};{'id': 'j_c1b5ae569568611dccab2dd82d103127', 'zh_title': 'Electrochemical studies on the oxidation of nitric oxide (NO) at glassy carbon electrodes modified by molybdenum oxides', 'authors': 'Lu��s Kosminsky;Vania Mori;Mauro Bertotti', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2001'};{'id': 'j_c2326f23ef5f7ab7a8213db1967f39c1', 'zh_title': 'Modification of glassy carbon electrode with a polymer/mediator composite and its application for the electrochemical detection of iodate', 'authors': 'Ta-Jen Li;Chia-Yu Lin;A. Balamurugan;Chung-Wei Kung;Jen-Yuan Wang;Chih-Wei Hu;Chun-Chieh Wang;Po-Yen Chen;R. Vittal;Kuo-Chuan Ho', 'journal': 'Analytica chimica acta', 'year': '2012'};{'id': 'j_71d9aeb38696a660e05efeae5b237552', 'zh_title': 'Highly sensitive electrochemical detection of iodate based on glassy carbon electrode modified with iridium oxide', 'authors': 'Yanna Lazarova;Ivan Shterev;Totka Dodevska', 'journal': 'Monatshefte f��r Chemie - Chemical Monthly', 'year': '2018'};{'id': 'j_b07ea9d02bcd1fd1960ee867cbe636e0', 'zh_title': 'A review of catalysts for the electroreduction of carbon dioxide to produce low-carbon fuels', 'authors': 'Jinli Qiao;Yuyu Liu;Feng Hong;Jiujun Zhang', 'journal': 'Chemical Society Reviews', 'year': '2014'};{'id': 'j_dba9690aa853339ea07b2a7208cd78be', 'zh_title': 'Selective flow injection analysis of iodate in iodized table salts by riboflavin immobilized multiwalled carbon nanotubes chemically modified electrode', 'authors': 'Subramanian Nellaiappan;Annamalai Senthil Kumar', 'journal': 'Electrochimica Acta', 'year': '2013'};{'id': 'j_e2464b8f67ebbedcc22c52082af98914', 'zh_title': 'Preparation and assay performance of supramolecule of cyclophane-complexed polyoxometalates supported on the gold surface', 'authors': 'Li Chen;Li Tian;Li Liu;Xuefei Tian;Wenbo Song;Hongding Xu;Xiaohong Wang', 'journal': 'SENSORS AND ACTUATORS B-CHEMICAL', 'year': '2005'};{'id': 'j_f7dc7bfeabc38614ff82528e2d8a234d', 'zh_title': 'An analytical application of the electrocatalysis of the iodate reduction at tungsten oxide films', 'authors': 'Jos�� Roberto Caetano da Rocha;Tiago Luiz Ferreira;Roberto Manuel Torresi;Mauro Bertotti', 'journal': 'Talanta', 'year': '2006'};{'id': 'j_21ab38c9eb8f061488766f45c4000d72', 'zh_title': 'Self-Assembly of Molybdophosphate on a Glassy Carbon Electrode Covalently Modified with Choline and Electrocatalytic Reduction of Iodate', 'authors': 'Xiangqin LIN;Chunming JIANG', 'journal': 'ANALYTICAL SCIENCES', 'year': '2006'}","{'id': 'j_738f2741a35c019ebdfd2a64b9712b38', 'zh_title': 'Electrochemical preparation of microelectrodes modified with non-stoichiometric mixed-valent molybdenum oxides', 'authors': 'Shaojun Dong;Baoxing Wang', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1994'};{'id': 'j_e6671bb433cc189680c0340a0d0c8a41', 'zh_title': 'Structure and dynamics in modified electrodes', 'authors': 'Larry R. 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Gutz', 'journal': 'Analytica Chimica Acta', 'year': '1994'};{'id': 'j_58468df1bec83054faf25dd730f6d76b', 'zh_title': 'Rapid chemiluminescence method for the determination of iodate traces', 'authors': 'O. V. Zui;A. V. Terletskaya', 'journal': ""Fresenius' Journal of Analytical Chemistry"", 'year': '1995'};{'id': 'j_564c0db3b44e14131ce0eb83c0c97df6', 'zh_title': 'Unidirectional current flow of reversible redox couples on a MoO3 film-modified microelectrode', 'authors': 'Baoxing Wang;Xiao-yuan Li;Shaojun Dong', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1997'};{'id': 'j_dbfe60888fab900cf44a0574df8972c4', 'zh_title': 'Solvent extraction investigation of molybdenum (VI) equilibria', 'authors': 'J.J. Cruywagen;A.G. Draaijer', 'journal': 'Polyhedron', 'year': '1992'};{'id': 'j_c85cdb433aa3a04ad0754b067e6b93e8', 'zh_title': 'Single-crystal conductivity measurements of hydrogen molybdenum bronzes: HxMoO3', 'authors': 'T.M. Barbara;G. Gammie;J.W. Lyding;J. 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+j_14cf15ebc9826ab3b83f8afccabc50e8,10.1002/(sici)1521-4109(199909)11:13<934::aid-elan934>3.0.co;2-f,Amperometric Detection of Biologically Significant Sulfur-Containing Compounds at Bi(V)-Doped PbO2Film Electrodes,1999,Nata?a ? Popovi?;Dennis C. Johnson,Nata?a ? Popovi?,TRUE,1999/9/1,11,13,934,939,1040-0397;1521-4109,"Electrocatalytic oxidation of sulfur-containing amino acids and peptides at Bi(V)-doped ��-PbO2 film electrodes (Bi-PbO2) was investigated in acidic media and tested for amperometric detection of representatives of these compounds following their separation as cationic species in a chromatographic column that exhibits both cation-exchange and reversed-phase properties. The Bi-PbO2 film electrodes permit detection with similar sensitivities for compounds that contain sulfhydryl, disulfide, thioether, and sulfoxide moieties. More specifically, detection limits at the pmol level were obtained for all analytes of interest. The Bi-PbO2 electrodes were characterized by cyclic voltammetry, scanning electron microscopy (SEM), and energy dispersive spectroscopy (EDS). For the acidic media used in this study, only the nonsulfur containing amino acids tryptophane and tyrosine produced an anodic response; however, this occurred only at concentrations >50 ��M. The linear dynamic range of response for methionine is demonstrated to be a sensitive function of applied potential. This observation is concluded to be consistent with a response mechanism by which a prerequisite is the anodic discharge of H2O to produce adsorbed OH radicals that are the immediate source of O-atoms transferred to the oxidation products.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,13,14,FALSE,,closed,�绯ѧ;��ѧ������,{},"{'id': 'j_00e4ab1222c737404550f231af0e2f4f', 'zh_title': 'Amperometric detection of sulfur-containing compounds in alkaline media', 'authors': 'Innocenzo G. Casella;Michela Contursi;Elio Desimoni', 'journal': 'The Analyst', 'year': '2002'};{'id': 'j_9a5fe90868463a9d641b0fdab7ee8dee', 'zh_title': 'Selective and Sensitive Electrochemical Sensor for L-Methionine at Physiological pH Using Functionalized Triazole Polymer Film Modified Electrode', 'authors': 'S. Brillians Revin;S. Abraham John', 'journal': 'Electroanalysis', 'year': '2012'};{'id': 'j_4e8c352d73e4080e6ef2900bb3800900', 'zh_title': 'An Electrochemical and XPS Study of Ag�CPb Binary Alloys incorporated in Nafion? Coatings', 'authors': 'I.G. Casella', 'journal': 'Journal of Applied Electrochemistry', 'year': '2001'};{'id': 'j_b0e795863ccc9174b76b6a5dc7d22758', 'zh_title': 'Encyclopedia of Analytical Chemistry (Applications, Theory and Instrumentation) || Catalytic Surfaces for Electroanalysis', 'authors': 'Meyers, Robert A.', 'year': '2000'};{'id': 'j_3fff0e5064a645893b37b20630068b77', 'zh_title': 'The electrochemical oxidation of homocysteine at boron-doped diamond electrodes with application to HPLC amperometric detection', 'authors': 'O. Chailapakul;W. Siangproh;B. V. Sarada;C. Terashima;Tata N. Rao;D. A. Tryk;A. Fujishima', 'journal': 'The Analyst', 'year': '2002'};{'id': 'j_70ff23ac28050bcd9aab8a74d10aef63', 'zh_title': 'A nano-lead dioxide-composite electrochemical sensor for the determination of chemical oxygen demand', 'authors': 'Xi Wang;Dandan Wu;Du Yuan;Xu Wu', 'journal': 'Journal of Environmental Chemical Engineering', 'year': '2022'};{'id': 'j_5dd4c12da289901878076a46eb374fb8', 'zh_title': 'Development of a Three-Dimensional Structured Carbon Fiber Felt/��-PbO2 Electrode and Its Application in Chemical Oxygen Demand Determination', 'authors': 'Hengliang Mo;Yang Tang;Xizhi Wang;Jia Liu;Dandan Kong;Yongmei Chen;Pingyu Wan;Huining Cheng;Tangqiang Sun;Linying Zhang;Man Zhang;Shuangyan Liu;Yanzhi Sun;Nan Wang;Lixin Xing;Lei Wang;Yang Jiang;Xin Xu;Yuanyuan Zhang;Xiaodong Meng', 'journal': 'Electrochimica Acta', 'year': '2015'};{'id': 'j_cadfe4395f12592a2b03ac65825a4407', 'zh_title': 'The fabrication of lead dioxide layers on a titanium substrate', 'authors': 'Yusairie Mohd;Derek Pletcher', 'journal': 'Electrochimica Acta', 'year': '2006'};{'id': 'j_a7e1cb91f249414de7ca73b354dd66b5', 'zh_title': 'Advances in the Voltammetric Analysis of Small Biologically Relevant Compounds', 'authors': 'Nathan S. Lawrence;Emma L. Beckett;James Davis;Richard G. Compton', 'journal': 'Analytical biochemistry', 'year': '2002'};{'id': 'j_84bbe4e6e2ca8607dea1a9d3e24eb073', 'zh_title': 'Electrocatalytic Determination of Biochemical Compounds', 'authors': 'C. Ajith Wijayawardhana;H. Brian Halsall;William R. Heineman;Eskil  Sahlin;Amy T. Beisler;Stephen G. Weber;Mats  Sandberg;Steven E. Rosenwald;Werner G. Kuhr;James  Cox;Long  Cheng', 'year': '2002'};{'id': 'j_4d580daa5ede4936e92911d2307087b1', 'zh_title': 'The electrooxidation of sulfur-containing compounds at boron-doped diamond electrode', 'authors': 'O. Chailapakul;P. Aksharanandana;T. Frelink;Y. Einaga;A. Fujishima', 'journal': 'Sensors and Actuators B-chemical', 'year': '2001'};{'id': 'j_a230c3e4ad047f1a5df370dd2320bd73', 'zh_title': 'Electrocatalysis and Detection of Carbohydrates byAnion-Exchange Chromatography at a Gold Substrate Electrode Modified with Nickel Cyanide Ions', 'authors': 'Innocenzo G. Casella;Maria Gatta', 'journal': 'Electroanalysis', 'year': '2001'};{'id': 'j_156caef86f7adbae1f347d98e90c8436', 'zh_title': 'Electrochemical strategies for the label-free detection of amino acids, peptides and proteins', 'authors': 'Gr?goire Herzog;Damien W. M. Arrigan', 'journal': 'The Analyst', 'year': '2007'}","{'id': 'j_bfbb63f50ab676b4132ee34df5d6aac6', 'zh_title': 'Simultaneous detection of thiols and disulfides by capillary electrophoresis-electrochemical detection using a mixed-valence ruthenium cyanide-modified microelectrode', 'authors': ""Jianxun Zhou;Thomas J. O'Shea;Susan M. Lunte"", 'journal': 'Journal of Chromatography A', 'year': '1994'};{'id': 'j_832040abe8a75a2aa4e0c09692a0b024', 'zh_title': 'Electrocatalysis of Anodic Oxygen�\Transfer Reactions: Effect of Groups III A and VA Metal Oxides in Electrodeposited �©\Lead Dioxide Electrodes in Acidic Media', 'authors': 'In�\Hyeong Yeo;Dennis C. Johnson', 'journal': 'Journal of The Electrochemical Society', 'year': '1987'};{'id': 'j_69e195a9689651e59a146dbf86cda734', 'zh_title': 'Electrocatalytic function of Bi(V) sites in heavily-doped PbO2-film electrodes applied for anodic detection of selected sulfur compounds', 'authors': 'Natasa D Popovic;James A Cox;Dennis C Johnson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1998'};{'id': 'j_a5937088572bc5d20aa644e0d91a7f9f', 'zh_title': 'A Ring?Disk Study of the Competition between Anodic Oxygen-Transfer and Dioxygen-Evolution Reactions', 'authors': 'Nata?a D. Popovi?;Dennis C. Johnson', 'journal': 'Analytical Chemistry', 'year': '1998'};{'id': 'j_8fa934b67b85ffcd4cad845681451475', 'zh_title': 'Voltammetric response of dimethyl sulphoxide at gold electrodes modified by thin films of bismuth-doped lead dioxide', 'authors': 'Hsiangpin Chang;Dennis C. Johnson', 'journal': 'Analytica Chimica Acta', 'year': '1991'};{'id': 'j_ba78349d438d29898fed81d3445e49aa', 'zh_title': 'An in situ weighing study of the mechanism for the formation of the adsorbed oxygen monolayer at a gold electrode', 'authors': 'Stanley Bruckenstein;Michael Shay', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1985'};{'id': 'j_79f41f43bc6ce1ae372f4e9f7389568f', 'zh_title': 'Electrocatalytic and analytical response of cobalt phthalocyanine containing carbon paste electrodes toward sulfhydryl compounds', 'authors': 'Mary Kim. Halbert;Richard P. Baldwin', 'journal': 'Analytical Chemistry', 'year': '1985'};{'id': 'j_ce89cafde8fb73195dc7f159cf21d069', 'zh_title': 'A mathematical model for anodic oxygen-transfer reactions at Bi(V)-doped PbO2-film electrodes', 'authors': 'Nata?a ?. Popovi?;James A. Cox;Dennis C. Johnson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1998'};{'id': 'j_613057035598f2634d96a058c50fcf77', 'zh_title': 'Spontaneous Oxidation of Methionine: Effect on the Quantification of Plasma Methionine Levels', 'authors': 'Hendrik C Potgieter;Johan B Ubbink;Siegbert Bissbort;Megan J Bester;Johannes H Spies;W.J.Hayward Vermaak', 'journal': 'Analytical biochemistry', 'year': '1997'};{'id': 'j_152216213e84fc2d2141357656f4115a', 'zh_title': 'Electrocatalysis of Anodic Oxygen Transfer Reactions: Comparison of Structural Data with Electrocatalytic Phenomena for Bismuth�\Doped Lead Dioxide', 'authors': 'In�\Hyeong Yeo;Sangsoo Kim;Robert Jacobson;Dennis C. Johnson', 'journal': 'Journal of The Electrochemical Society', 'year': '1989'};{'id': 'j_2cb1677d586fea1c56bcf571a3bea0a7', 'zh_title': 'Dual electrode liquid chromatography detector for thiols and disulfides', 'authors': 'Laura A. Allison;Ronald E. Shoup', 'journal': 'Analytical Chemistry', 'year': '1983'};{'id': 'j_47e8c5878cfa4fc0d296bc7902fb5b90', 'zh_title': 'High-performance liquid chromatography of sulfur-containing amino acids and related compounds with amperometric detection at a modified electrode', 'authors': 'James A. Cox;Ewa Dabek-Zlotorzynska', 'journal': 'Journal of chromatography', 'year': '1991'};{'id': 'j_ee08c0a50774b1d5ebc1c0a390812f82', 'zh_title': 'Dissolution of Gold Electrodes in Alkaline Media Containing Cysteine', 'authors': 'Anna J. Tudos;Dennis C. Johnson', 'journal': 'Analytical Chemistry', 'year': '1995'};{'id': 'j_fca3fec2cb9a2518cda7e22733882271', 'zh_title': 'Determination of cysteine and glutathione in plasma and blood by liquid chromatography with electrochemical detection using a chemically modified electrode containing cobalt phthalocyanine', 'authors': 'Mary Kim Halbert;Richard P. Baldwin', 'journal': 'Journal of chromatography', 'year': '1985'}","{'person_id': 'd3238db1f9af9cd0017d4b10af8df56a', 'orcid': ' ', 'name': 'Dennis C. Johnson', 'email': '', 'org_name': 'Iowa State University', 'org_id': 'fa7f3403858dec6961c7a50775a58e09', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'b5e17de532eb16666308b4f092d9a9be', 'orcid': ' ', 'name': 'Nata?a Popovi?', 'email': '', 'org_name': 'Iowa State University', 'org_id': 'fa7f3403858dec6961c7a50775a58e09', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_f2ab96201eb9194d3f031549ee5afebe,10.1002/(sici)1521-4109(199909)11:13<945::aid-elan945>3.0.co;2-7,Glucose Nanosensor Based on Prussian-Blue Modified Carbon-Fiber Cone Nanoelectrode and an Integrated Reference Electrode,1999,Xueji Zhang;Joseph Wang;Bozidar Ogorevc;Ursula E. Spichiger,Xueji Zhang,TRUE,1999/9/1,11,13,945,949,1040-0397;1521-4109,"An enzyme nanosensor, based on a carbon fiber cone nanoelectrode modified by codeposition of Prussian blue (PB) and glucose oxidase (GOD), has been constructed. The nanosensor displays a low-potential electrocatalytic detection of the enzymatically liberated hydrogen peroxide, along with good reproducibility and high selectivity. The dependence of the nanosensor response upon parameters of the sensor preparation (e.g., amount of GOD, PB deposition time, Nafion coverage), and upon measurements conditions (e.g., pH, applied potential) was evaluated. An operating potential of �C0.1?V (vs. Ag/AgCl) yielded the highest selectivity towards glucose, with no interference from ascorbic acid. The lifetime of the nanosensor is more than two weeks. Such miniaturization and analytical performance offer great promise for measurements of glucose in extremely small volumes.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,89,23,FALSE,,closed,��ѧ������;�绯ѧ,"{'org_name': '��ɣ��������ѧԺ', 'org_id': '787cd3822bc62c6a94e28cbeac0d9666'}","{'id': 'j_3dc522bbd0c6365b786c35ef51fd6178', 'zh_title': '3D nitrogen-doped graphite foam@Prussian blue: an electrochemical sensing platform for highly sensitive determination of H2O2 and glucose', 'authors': 'Yu Zhang;Bintong Huang;Feng Yu;Qunhui Yuan;Meng Gu;Junyi Ji;Yang Zhang;Yingchun Li', 'journal': 'Microchimica Acta', 'year': '2018'};{'id': 'j_e7f0258ea4e0b03648a43c54c2968cfd', 'zh_title': 'New glucose biosensor based on a poly(o-phenylendiamine)/glucose oxidase-glutaraldehyde/Prussian blue/Au electrode with QCM monitoring of various electrode-surface modifications', 'authors': 'Chunyan Deng;Mingrui Li;Qingji Xie;Meiling Liu;Yueming Tan;Xiahong Xu;Shouzhuo Yao', 'journal': 'ANALYTICA CHIMICA ACTA', 'year': '2006'};{'id': 'j_0621092ee4706a3faa4391405da3431e', 'zh_title': 'Highly sensitive electrochemical detection of trace liquid peroxide explosives at a Prussian-blue ��artificial-peroxidase�� modified electrode', 'authors': 'Donglai Lu;Avi Cagan;Rodrigo A. A. Munoz;Tanin Tangkuaram;Joseph Wang', 'journal': 'The Analyst', 'year': '2006'};{'id': 'j_0d178a71765466b32ef670e689eb5a6f', 'zh_title': 'Failure of Standard Training Sets in the Analysis of Fast-Scan Cyclic Voltammetry Data', 'authors': 'Justin A. Johnson;Nathan T. Rodeberg;R. Mark Wightman', 'journal': 'ACS Chemical Neuroscience', 'year': '2016'};{'id': 'j_56ed8960b297ab463fa3c4f190a19e4b', 'zh_title': 'Real-time measurement of dopamine fluctuations after cocaine in the brain of behaving rats', 'authors': 'Michael L. A. V. Heien;Amina S. Khan;Jennifer L. Ariansen;Joseph F. Cheer;Paul E. M. Phillips;Kate M. Wassum;R. Mark Wightman', 'journal': 'Proceedings of the National Academy of Sciences', 'year': '2005'};{'id': 'j_69a4914d8841c898ddf2263db15baa40', 'zh_title': 'Amperometric detection of glucose and H2O2 using peroxide selective electrode based on carboxymethylcellulose/polypyrrole and Prussian Blue nanocomposite', 'authors': 'Sinan Uzun?ar;Nizamettin ?zdo?an;Metin Ak', 'journal': 'Materials today communications', 'year': '2021'};{'id': 'j_e8fde0f34ad95493d5f16e54edc00179', 'zh_title': 'Palladized aluminum as a novel substrate for the non-electrolytic preparation of a Prussian Blue film modified electrode', 'authors': 'M.H. Pournaghi-Azar;H. Dastangoo', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2004'};{'id': 'j_456cbfcefba7e976658e0afa5c236664', 'zh_title': 'Electroanalytical applications of Prussian Blue and its analogs', 'authors': 'A. A. Karyakin; E. E. Karyakina', 'journal': 'Russian Chemical Bulletin', 'year': '2001'};{'id': 'j_548a763d892ec4b863e8d7ae0e80f1a9', 'zh_title': 'A Prussian blue-based amperometric sensor for the determination of hydrogen peroxide residues in milk', 'authors': 'Jianfeng Ping;Xiuling Mao;Kai Fan;Dongyang Li;Shiping Ru;Jian Wu;Yibin Ying', 'journal': 'IONICS', 'year': '2010'};{'id': 'j_014743663a66c39d805ac2f1e1468c17', 'zh_title': 'Electrochemical deposition and mechanism investigation of Prussian blue on graphic carbon paste electrode from an acidic ferricyanide solution', 'authors': 'Ya Ding;Gang Gu;Xing-Hua Xia', 'journal': 'Journal of Solid State Electrochemistry', 'year': '2007'};{'id': 'j_0de93361c2e51e35ab39d6710bae3020', 'zh_title': 'Nanoelectrodes for biological measurements', 'authors': 'Joanne I. Yeh;Haibin Shi', 'journal': 'Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology', 'year': '2010'};{'id': 'j_06e47cebde4aac2f8781cf27b6ead234', 'zh_title': 'New faces of porous Prussian blue: interfacial assembly of integrated hetero-structures for sensing applications', 'authors': 'Biao Kong;Cordelia Selomulya;Gengfeng Zheng;Dongyuan Zhao', 'journal': 'Chem. Soc. Rev.', 'year': '2015'};{'id': 'j_b9abd6ab36ae5fd65b913735d23eb938', 'zh_title': 'Active Pt Nanoparticles Stabilized with Glucose Oxidase', 'authors': 'Pierre Karam;Yan Xin;Sarah Jaber;Lara I. Halaoui', 'journal': 'The Journal of Physical Chemistry C', 'year': '2008'};{'id': 'j_8d6d944cbd5d7a5e9be44bb1eef8af70', 'zh_title': 'Assembly and electroanalytical performance of Prussian blue/polypyrrole composite nanoparticles synthesized by the reverse micelle method', 'authors': 'Yuqing Miao;Jiwei Liu', 'journal': 'Science and Technology of Advanced Materials', 'year': '2009'};{'id': 'j_a17b55f574803a5daab34ffc84065c82', 'zh_title': 'An Integrated Nitric Oxide Sensor Based on Carbon Fiber Coated with Selective Membranes', 'authors': 'Xueji Zhang;Levis Cardosa;Mark Broderick;Harry Fein;Jie Lin', 'journal': 'Electroanalysis', 'year': '2000'};{'id': 'j_27040c3a227c5485ad935902efb9290f', 'zh_title': 'Preparation of poly(N-acetylaniline)�CPrussian blue hybrid composite film and its application to hydrogen peroxide sensing', 'authors': 'Lei Zhou;Shouguo Wu;Haihong Xu;Qiping Zhao;Zhixin Zhang;Yao Yao', 'journal': 'ANALYTICAL METHODS', 'year': '2014'};{'id': 'j_5be8450971889be8eb423675278671f6', 'zh_title': 'Prussian blue-based optical glucose biosensor in flow-injection analysis', 'authors': 'Tomasz Lenarczuk;Dorota Wencel;Stanis?aw G??b;Robert Koncki', 'journal': 'Analytica Chimica Acta', 'year': '2001'};{'id': 'j_d194f5e907049d4f50ecd0446306de71', 'zh_title': 'Prussian Blue and enzyme bulk-modified screen-printed electrodes for hydrogen peroxide and glucose determination with improved storage and operational stability', 'authors': 'Francesco Ricci;Aziz Amine;Catalin S. Tuta;Anton A. 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Spichiger', 'email': '', 'org_name': '��cole Polytechnique F��d��rale de Lausanne', 'org_id': '822a838fb19d89929819f1ad62dfdb8c', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '59f59136f065a5a90244da36c6824f2d', 'orcid': ' ', 'name': 'Bozidar Ogorevc', 'email': '', 'org_name': 'National Institute of Chemistry', 'org_id': 'd0098a7519d0aac90c109d7722b36650', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_67c13c588dc26f8e0ab745ec647f7b92,10.1002/(sici)1521-4109(199911)11:16<1211::aid-elan1211>3.0.co;2-v,Electrocatalysis and Flow-Injection Analysis of Hydrogen and Organic Peroxides at CuPtCl6 Chemically Modified Electrodes,1999,Jianhong Pei;Xiao-yuan Li,Jianhong Pei,TRUE,1999/11/1,11,16,1211,1217,1040-0397;1521-4109,,Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,13,28,FALSE,,closed,��ѧ������;�绯ѧ,{},"{'id': 'j_08e6ecefcd5b895424c1f85686681857', 'zh_title': 'Application of Electrocatalysis and Particle Swarm Electrodes in Organic Industrial Wastewater Treatment', 'authors': 'Jinfeng  Sun;Kun  Quan;Yongqiang  Meng', 'year': '2020'};{'id': 'j_75b53b432d3c2f25674ff5f77386e9ec', 'zh_title': 'Xanthine and hypoxanthine sensors based on xanthine oxidase immobilized on a CuPtCl6 chemically modified electrode and liquid chromatography electrochemical detection', 'authors': 'Jianhong Pei;Xiao-yuan Li', 'journal': 'ANALYTICA CHIMICA ACTA', 'year': '2000'};{'id': 'j_21d6200a0bdf579a6b34503199b87032', 'zh_title': 'Flow Injection Amperometric Analysis of H2\nO2\n at Platinum Nanoparticles Modified Pencil Graphite Electrode', 'authors': 'Serkan Karakaya;Yusuf Dilgin', 'journal': 'Electroanalysis', 'year': '2017'};{'id': 'j_2a105657c404f6f9c6a81f881e9d323d', 'zh_title': 'Sol-gel-derived ��2-K7P2W17VO62/graphite/organoceramic composite as the electrode material for a renewable amperometric hydrogen peroxide sensor', 'authors': 'Peng Wang;Xiangping Wang;Lihua Bi;Guoyi Zhu', 'journal': 'JOURNAL OF ELECTROANALYTICAL CHEMISTRY', 'year': '2000'};{'id': 'j_2681cb4f08f277b22aae7dd63c2b0a96', 'zh_title': 'Electrochemical sensor for hydroperoxides determination based on Prussian blue film modified electrode', 'authors': 'Nafaa Adhoum;Lotfi Monser', 'journal': 'Sensors and Actuators B-chemical', 'year': '2008'};{'id': 'j_efe1cb12cb92ebd70703777f5a2640c4', 'zh_title': 'Electrochemical detection of triacetone triperoxide employing the electrocatalytic reaction of iron(II/III)-ethylenediaminetetraacetate and hydrogen peroxide', 'authors': 'Derek F. Laine;Christopher W. Roske;I. Francis Cheng', 'journal': 'Analytica chimica acta', 'year': '2008'};{'id': 'j_35a1f13ea000590c5d5322cd75e1c620', 'zh_title': ""PATAI'S Chemistry of Functional Groups || Analytical and Safety Aspects of Organic Peroxides and Related Functional Groups"", 'authors': 'Rappoport, Zvi', 'journal': ""Patai's Chemistry of Functional Groups"", 'year': '2009'};{'id': 'j_a6f680f01d8c5ce32cffac2ba49b556d', 'zh_title': 'Reproducible reduction signal of organic hydroperoxides at an in situ electrodeposited iron microelectrode, due to the reconstitution of the active surface of the electrode', 'authors': 'Ronan Baron', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2005'};{'id': 'j_76d29a0a35253e04f2ffd968dffb4ca5', 'zh_title': 'A Novel Hydrogen Peroxide Sensor Based on Specifically Interacted Silver Dispersed Sol-gel Derived Ceramic Composite Electrode.', 'authors': 'Dhesingh RAVISHANKARAN;Nobuo UEHARA;Teiji KATO', 'journal': 'Analytical Sciences', 'year': '2002'};{'id': 'j_889765df1321f35d6b532f08c18ea862', 'zh_title': 'Electrode reaction mechanisms for the reduction of tert-butyl peracetate, lauryl peroxide and dibenzoyl peroxide', 'authors': 'Ronan Baron;Andr�� Darchen;Didier Hauchard', 'journal': 'Electrochimica Acta', 'year': '2006'};{'id': 'j_02d4457c443692aa055e95dcd36473ae', 'zh_title': 'Electrocatalytic reduction of tert-butyl hydroperoxide at iron electrodes', 'authors': 'Ronan Baron;Andr�� Darchen;Didier Hauchard', 'journal': 'Electrochimica Acta', 'year': '2004'};{'id': 'j_df36419e9f801dd6ac3307b74b591c0e', 'zh_title': 'Amperometric Glucose Enzyme Sensor Prepared by Immobilizing Glucose Oxidase on CuPtCl6 Chemically Modified Electrode', 'authors': 'Jianhong Pei;Xiao-yuan Li', 'journal': 'Electroanalysis', 'year': '1999'};{'id': 'j_a7e1cb91f249414de7ca73b354dd66b5', 'zh_title': 'Advances in the Voltammetric Analysis of Small Biologically Relevant Compounds', 'authors': 'Nathan S. Lawrence;Emma L. Beckett;James Davis;Richard G. Compton', 'journal': 'Analytical biochemistry', 'year': '2002'}","{'id': 'j_088a7a51314fe142744147ba0f19ca28', 'zh_title': 'Prussian Blue-Based First-Generation Biosensor. A Sensitive Amperometric Electrode for Glucose', 'authors': 'Arkady A. Karyakin;Olga V. Gitelmacher;Elena E. Karyakina', 'journal': 'Analytical Chemistry', 'year': '1995'};{'id': 'j_78a133dd5d0deba09d16c9bf96482c28', 'zh_title': 'Kinetics of oxygen reduction on carbon materials in alkaline solution', 'authors': 'A.J. Appleby;J. Marie', 'journal': 'Electrochimica Acta', 'year': '1979'};{'id': 'j_79964790ce96c90e3f9f42e3360a6693', 'zh_title': 'Amperometric determination of hydrogen peroxide in pickling baths for copper and copper alloys by flow injection analysis', 'authors': 'Hans Lundb?ck', 'journal': 'Analytica Chimica Acta', 'year': '1983'};{'id': 'j_73e16c393f88e0763cc2eed83f77c3c5', 'zh_title': 'Kinetic studies of the oxygen��peroxide couple on pyrolytic graphite', 'authors': 'I. Morcos;E. Yeager', 'journal': 'Electrochimica Acta', 'year': '1970'};{'id': 'j_7453817d3205f533c5a264377d3a141d', 'zh_title': 'Amperometric enzymic determination of total cholesterol in human serum with tubular carbon electrodes', 'authors': 'Younghee. Hahn;Carter L. Olson', 'journal': 'Analytical Chemistry', 'year': '1979'};{'id': 'j_91ad455c72a4969dc7757d02fc1aa406', 'zh_title': 'Chemiluminescent method for determination of hydrogen peroxide in the ambient atmosphere', 'authors': 'Gregory L. Kok;Tod P. Holler;Miguel B. Lopez;Howard A. Nachtrieb;Mark Yuan', 'journal': 'Environmental Science & Technology', 'year': '1978'};{'id': 'j_7b56d92ff0c1fb83827a1bf8aedb5785', 'zh_title': 'A Glucose Biosensor Based on Immobilization of Glucose Oxidase in Electropolymerized o-Aminophenol Film on Platinized Glassy Carbon Electrode', 'authors': 'Zhanen Zhang;Haiying Liu;Jiaqi Deng', 'journal': 'Analytical Chemistry', 'year': '1996'};{'id': 'j_762efb1a3cdfb7569dbf745a7211bb86', 'zh_title': 'Studies in the Structure of Organic Peroxides.', 'authors': 'Daniel. Swern;L. S. Silbert', 'journal': 'Analytical Chemistry', 'year': '1963'};{'id': 'j_362dc63528a1e85fed55e8f209f2e585', 'zh_title': 'Electrocatalysis and amperometric detection of organic peroxides at modified carbon-paste electrodes', 'authors': 'Joseph Wang;Lucio Angnes;Chen Liang;Otis Evans', 'journal': 'Talanta', 'year': '1991'};{'id': 'j_8deb66acd89ff9634b337331badd7db7', 'zh_title': 'Liquid chromatography and electrochemical detection of organic peroxides by reduction at an iron phthalocyanine chemically modified electrode', 'authors': 'Xiaohe Qi;Richard P. Baldwin', 'journal': 'Electroanalysis', 'year': '1993'};{'id': 'j_ec0330e9169fc0d911050c420cc2264e', 'zh_title': 'Flow injection amperometric determination of hydrogen peroxide by oxidation at an iridium oxide electrode', 'authors': 'James A. Cox;Krzysztof Lewinski', 'journal': 'Talanta', 'year': '1993'};{'id': 'j_3e66add8740a1ed45e3de76f7603899d', 'zh_title': 'Redox chemistry of dioxygen species', 'authors': 'John Wilshire;Donald T. Sawyer', 'journal': 'Accounts of Chemical Research', 'year': '1979'};{'id': 'j_9b75442d78f786000b2f091777362443', 'zh_title': 'Drinking-water treatment with ozone', 'authors': 'William H. Glaze', 'journal': 'Environmental Science & Technology', 'year': '1987'};{'id': 'j_aa09aec286e63125b8e21bfd391ad811', 'zh_title': 'A carbon electrode sputtered with palladium and gold for the amperometric detection of hydrogen peroxide', 'authors': 'Lo Gorton', 'journal': 'Analytica Chimica Acta', 'year': '1985'};{'id': 'j_7fb919cc29dd9b2031b026c681afc4e4', 'zh_title': 'Preparation, characterization and application of an electrode modified with electropolymerized CuPtCl6', 'authors': 'Jianhong Pei;Xiao-yuan Li', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1998'};{'id': 'j_026b55b032bd8bba8594cd207f81ebb1', 'zh_title': 'Spectrophotometric determination of hydrogen peroxide using potassium titanium(IV) oxalate', 'authors': 'Robin M. Sellers', 'journal': 'Analyst', 'year': '1980'};{'id': 'j_6cbd4b0d15e419690cd2294b6038f335', 'zh_title': 'Electrochemical studies of hydrogen peroxide at a platinum disc electrode', 'authors': 'V.G. Prabhu;L.R. Zarapkar;R.G. Dhaneshwar', 'journal': 'Electrochimica Acta', 'year': '1981'};{'id': 'j_41a506ca4627c75fbf4d6dc80b1a9814', 'zh_title': 'Chemiluminescence as a method for oxidative rancidity assessment in autoxidized marine oils', 'authors': 'Ivan C. Burkow;Per Moen;Kersti ?verb?', 'journal': 'Journal of the American Oil Chemists�� Society', 'year': '1992'};{'id': 'j_2eeea0ab1beb4728fe6300e8d70f84b8', 'zh_title': 'Anisotropy of the electrical conductivity in the one-dimensional conductor K2Pt(CN)4]Br0��30.3(H2O)', 'authors': 'H.R. Zeller;A. Beck', 'journal': 'Journal of Physics and Chemistry of Solids', 'year': '1974'};{'id': 'j_b1219c0280dcafca65c1a2f83bd0d7f3', 'zh_title': 'Kinetics of oxygen reduction reactions involving catalytic decomposition of hydrogen peroxide', 'authors': 'A.J. Appleby;M. Savy', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1978'};{'id': 'j_f08ed035049b8b40ce80ca627cfaf940', 'zh_title': 'Electrochemical Reduction of Oxygen at ��Electrocoated�� Nafion�\Modified Metal�\Carbon Composite and Platinum Electrodes', 'authors': 'Greg M. Swain;Bruce J. Tatarchuk', 'journal': 'Journal of The Electrochemical Society', 'year': '1993'};{'id': 'j_4572ec374150310c91c669dfb3c883c5', 'zh_title': 'Modified electrodes for electrochemical detection in flowing streams', 'authors': 'Joseph Wang', 'journal': 'Analytica Chimica Acta', 'year': '1990'};{'id': 'j_605e3253f2bbd84806bfc17b2557246b', 'zh_title': 'Cobalt phthalocyanine/cellulose acetate chemically modified electrodes for electrochemical detection in flowing streams.  Multifunctional operation based upon the coupling of electrocatalysis and permselectivity', 'authors': 'Joseph. Wang;Teresa. Golden;Ruiliang. Li', 'journal': 'Analytical Chemistry', 'year': '1988'};{'id': 'j_d1eeaa637be43b5944013eb06423da42', 'zh_title': 'Amperometric determination of peroxides by glassy carbon electrodes modified with copper-phenanthroline complexes', 'authors': 'Rosanna Toniolo;Nicola Comisso;Gino Bontempelli;Gilberto Schiavon', 'journal': 'Electroanalysis', 'year': '1996'};{'id': 'j_9808cf72cd8df0e0414c08c501e6e711', 'zh_title': 'Development and evaluation of glucose microsensors based on electrochemical codeposition of ruthenium and glucose oxidase onto carbon fiber microelectrodes', 'authors': 'Henning Sakslund;Joseph Wang;Fang Lu;Ole Hammerich', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1995'};{'id': 'j_c30d802a9d18168d622486699d6ac07e', 'zh_title': 'Efficacy of organometallic-containing screen-printed carbon strips as catalysts for the oxidation of hydrogen peroxide: a voltammetric and X-ray photoelectron spectroscopic investigation', 'authors': 'Markas A.T. Gilmartin;Richard J. Ewen;John P. Hart', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1996'};{'id': 'j_6b2b61f815a8455609a9f0b2c6d81bc6', 'zh_title': 'Catalytic reactions of bis(1,10-phenanthroline) cuprous complex with hydrogen peroxide at glassy carbon and pyrolytic graphite electrodes', 'authors': 'Kazuto Sugiyama;Koichi Aoki', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1989'};{'id': 'j_f59e1148f61d3e4ffb7fc31428089d1e', 'zh_title': 'Enzyme monolayer- and bilayer-modified tin oxide electrodes for the determination of hydrogen peroxide and glucose', 'authors': 'Tetsu. Tatsuma;Yusuke. Okawa;Tadashi. Watanabe', 'journal': 'Analytical Chemistry', 'year': '1989'}","{'person_id': 'bda24289595af715b2aee32ef921d9cd', 'orcid': ' ', 'name': 'Jianhong Pei', 'email': '', 'org_name': 'University of Geneva', 'org_id': '0c6b22c12b1cd1d737e276e1a0d813d4', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '6ae6ae91dfff9beab9a41581421cf742', 'orcid': 'https://orcid.org/0000-0002-4483-1960', 'name': 'Xiaoyuan Li', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_42359b1e9219804b0c159d090af87337,10.1002/(sici)1521-4109(199911)11:16<1236::aid-elan1236>3.0.co;2-y,Fabrication of a Multilayer Film Electrode Containing Quaternized Poly(4-vinylpyridine) Complexed with [Os(bpy)2CI]+/2+ and Its Electrocatalytic Oxidation ofL-Cysteine,1999,Changqing Sun;Sheng Qin;Yunjing Luo,Changqing Sun,TRUE,1999/11/1,11,16,1236,1240,1040-0397;1521-4109,A novel multilayer film containing quaternized poly(4-vinylpyridine) complexed with Os(bpy)2CI]+/2+(POs) was achieved on the surface of glassy carbon electrode modified with branched poly(ethylenimine)(PEI) by alternate deposition of POs with sodium poly(styrene-sulfonate)(PSS). The electrochemical behavior of the multilayer film electrode is described. The catalytic effect of the multilayer film electrode on the oxidation of L-cysteine is studied.,Materials Science,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,1,26,FALSE,,closed,��ѧ������;�绯ѧ,{},"{'id': 'j_cd32749438743dcd17231aae2889e1a7', 'zh_title': 'PMo12-Doped Carbon Ceramic Composite Electrode Based on Sol-Gel Chemistry and Its Electrocatalytic Reduction of Bromate', 'authors': 'Peng Wang;Xiangping Wang;Guoyi Zhu', 'journal': 'ELECTROANALYSIS', 'year': '2000'}","{'id': 'j_72ded71441414e460d11b665200d658a', 'zh_title': 'Chemically modified tin oxide electrode', 'authors': 'P. R. Moses;L. Wier;R. W. Murray', 'journal': 'Analytical Chemistry', 'year': '1975'};{'id': 'j_b61ff95940f84b1bc309e87482f709ee', 'zh_title': 'Electrocatalytic oxidation of carbohydrates at a molecular deposition film electrode based on water-soluble cobalt phthalocyanine and its application to flow-through detection', 'authors': 'Changqing Sun;Xiaoyuan Zhang;Dan Jiang;Qian Gao;Hongding Xu;Yipeng Sun;Xi Zhang;Jiacong Shen', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1996'};{'id': 'j_026251918befb8bc9ae2950f2148b9bd', 'zh_title': 'Electrochemistry of chemisorbed molecules. I. Reactants connected to electrodes through olefinic substituents', 'authors': 'Ross F. Lane;Arthur T. Hubbard', 'journal': 'The Journal of Physical Chemistry', 'year': '1973'};{'id': 'j_de62e2db45125659b996801f1af9e924', 'zh_title': 'Chemically Modified Electrodes: ADV.ELECTROCHEM.SC.V.11 O-BK', 'authors': 'Richard C. Alkire;Dieter M. Kolb;Jacek  Lipkowski;Philip N. Ross', 'year': '2009'};{'id': 'j_1df16a86ce5be46af4e83ea61202468d', 'zh_title': 'Polyoxometallate�\Based Layered Composite Films on Electrodes: Preparation Through Alternate Immersions in Modification Solutions', 'authors': 'David Ingersoll;Pawel J. Kulesza;Larry R. Faulkner', 'journal': 'Journal of The Electrochemical Society', 'year': '1994'};{'id': 'j_ff8666b1a42e090481126e042cc06651', 'zh_title': 'Polymeric ligands as anchoring groups for the attachment of metal complexes to graphite electrode surfaces', 'authors': 'Noboru Oyama;Fred C. Anson', 'journal': 'Journal of the American Chemical Society', 'year': '1979'};{'id': 'j_726dfb687d7b6a1a896d7698afd99ef8', 'zh_title': 'Effect of Quaternization of the Glucose Oxidase ��Wiring�� Redox Polymer on the Maximum Current Densities of Glucose Electrodes', 'authors': 'Ravi Rajagopalan;Atsushi Aoki;Adam Heller', 'journal': 'The Journal of Physical Chemistry', 'year': '1996'};{'id': 'j_85799ba7f65671bce742ffdbf4f7d1e3', 'zh_title': 'Fabrication of multilayer films containing 1:12 phosphomolybdic anions on the surface of a gold electrode based on electrostatic interaction and its application as an electrochemical detector in flow-injection amperometric detection of hydrogen peroxide', 'authors': 'Changqing Sun;Jinghong Zhao;Hongding Xu;Yipeng Sun;Xi Zhang;Jiacong Shen', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1997'};{'id': 'j_10d94d08360926e74a717d7a34bce585', 'zh_title': 'Proof of multilayer structural organization in self-assembled polycation-polyanion molecular films', 'authors': 'Gero Decher;Yuri Lvov;Johannes Schmitt', 'journal': 'Thin Solid Films', 'year': '1994'};{'id': 'j_b5a3bc4837f1affbf7a4eea0642cc2f6', 'zh_title': 'Facile attachment of transition metal complexes to graphite electrodes coated with polymeric ligands. Observation and control of metal-ligand coordination among reactants confined to electrode surfaces', 'authors': 'Noboru Oyama;Fred C. Anson', 'journal': 'Journal of the American Chemical Society', 'year': '1979'};{'id': 'j_3eaf8791fde0bb0b962c72500024b987', 'zh_title': 'Layer-by-Layer Self-Assembly of Glucose Oxidase with a Poly(allylamine)ferrocene Redox Mediator', 'authors': 'Jose Hodak;Roberto Etchenique;Ernesto J. Calvo;Kavita Singhal;Philip N. Bartlett', 'journal': 'Langmuir', 'year': '1997'};{'id': 'j_7e8af835a79f49355eb1adade989c8da', 'zh_title': 'Fabrication of a multilayer film electrode containing porphyrin and its application as a potentiometric sensor of iodide ion', 'authors': 'C Sun', 'journal': 'Talanta', 'year': '1998'};{'id': 'j_2be805ef9445d07a4dba3b617a8b553b', 'zh_title': 'Mercury-based electrochemical detector for liquid chromatography for the detection of glutathione and other sulfur-containing compounds', 'authors': 'Dallas L. Rabenstein;Rolf. Saetre', 'journal': 'Analytical Chemistry', 'year': '1977'};{'id': 'j_928f9fb3cfa89890a16da725eda2a551', 'zh_title': 'Buildup of ultrathin multilayer films by a self-assembly process, 1 consecutive adsorption of anionic and cationic bipolar amphiphiles on charged surfaces', 'authors': 'Gero Decher;Jong-Dal Hong', 'journal': 'Makromolekulare Chemie. Macromolecular Symposia', 'year': '1991'};{'id': 'j_4205555463eb892c52a166888cfa29eb', 'zh_title': 'The Electrochemistry Group Medal Lecture. Electron self-exchange dynamics between redox sites in polymers', 'authors': 'N. A. Surridge;J. C. Jernigan;E. F. Dalton;R. P. Buck;M. Watanabe;H. Zhang;M. Pinkerton;T. T. Wooster;M. L. Longmire;J. S. Facci;Royce W. Murray', 'journal': 'Faraday Discussions of the Chemical Society', 'year': '1989'};{'id': 'j_2cb1677d586fea1c56bcf571a3bea0a7', 'zh_title': 'Dual electrode liquid chromatography detector for thiols and disulfides', 'authors': 'Laura A. Allison;Ronald E. Shoup', 'journal': 'Analytical Chemistry', 'year': '1983'};{'id': 'j_2b0f2d23dfd37f644d36ebd976259245', 'zh_title': 'Electrochemistry of chemisorbed molecules. II. Influence of charged chemisorbed molecules on the electrode reactions of platinum complexes', 'authors': 'Ross F. Lane;Arthur T. Hubbard', 'journal': 'The Journal of Physical Chemistry', 'year': '1973'};{'id': 'j_378f8bbd2c74fe247b7368fd9c72c9fd', 'zh_title': 'Determination of penicillamine in blood and urine by high performance liquid chromatography', 'authors': 'Rolf. Saetre;Dallas L. Rabenstein', 'journal': 'Analytical Chemistry', 'year': '1978'};{'id': 'j_25700e2f968ad1a8f749d45099480b41', 'zh_title': 'Fabrication of a multilayer film containing cobalt phthalocyanine on the surface of a gold electrode based on electrostatic interaction and its application as an amperometric sensor of hydrazine', 'authors': 'Changqing Sun;Yipeng Sun;Xi Zhang;Xiaoyuan Zhang;Dan Jiang;Qian Gao;Hongding Xu;Jiacong Shen', 'journal': 'Thin Solid Films', 'year': '1996'};{'id': 'j_5bb219bcc26b39dffb5dbcc326c4aa0c', 'zh_title': 'Gold electrodes with polyion multilayers and electrostatically bound redox couples', 'authors': 'D.A. Lowy;H.O. Finklea', 'journal': 'Electrochimica Acta', 'year': '1997'};{'id': 'j_02553e2ed2be34fcddd3ab0a4f402a2b', 'zh_title': 'Selective potentiometric determination of copper(II) ions by use of a molecular deposition film electrode based on water-soluble copper phthalocyanine', 'authors': 'Changqing Sun;Yipeng Sun;Xi Zhang;Hongding Xu;Jiacong Shen', 'journal': 'Analytica Chimica Acta', 'year': '1995'};{'id': 'j_2e78ca26687b859ac28badf6cc022f1e', 'zh_title': 'Direct Electrochemistry of Myoglobin and Cytochrome P450cam in Alternate Layer-by-Layer Films with DNA and Other Polyions', 'authors': 'Yuri M. Lvov;Zhongqing Lu;John B. Schenkman;Xiaolin Zu;James F. Rusling', 'journal': 'Journal of the American Chemical Society', 'year': '1998'};{'id': 'j_28b80261753d40f48a22fd0c61709829', 'zh_title': 'Assembly, structural characterization, and thermal behavior of layer-by-layer deposited ultrathin films of poly(vinyl sulfate) and poly(allylamine)', 'authors': 'Yuri Lvov;Gero Decher;Helmuth Moehwald', 'journal': 'Langmuir', 'year': '1993'};{'id': 'j_510b926d1984156632eee62ddac9ae3e', 'zh_title': 'THE TRANSITION FROM TYPICAL POLYELECTROLYTE TO POLYSOAP. III. LIGHT SCATTERING AND VISCOSITY STUDIES OF POLY-4-VINYLPYRIDINE DERIVATIVES1', 'authors': 'Ulrich P. Strauss;Bernard L. Williams', 'journal': 'The Journal of Physical Chemistry', 'year': '1961'};{'id': 'j_5f9b4097eb7b201d307ff3054e0143a5', 'zh_title': 'Determination of ascorbic acid in a mixture of ascorbic acid and uric acid at a chemically modified electrode', 'authors': 'Zhiqiang Gao;Kok Siong Siow;Adeline Ng;Yimin Zhang', 'journal': 'Analytica Chimica Acta', 'year': '1997'};{'id': 'j_3300179529a9d5f0bc594a440dfc276f', 'zh_title': 'Fabrication and electrochemical behavior of multilayer films containing 1:12 phosphomolybdic anions and their electrocatalytic oxidation of ascorbic acid', 'authors': 'Changqing Sun;Jidong Zhang', 'journal': 'Electrochimica Acta', 'year': '1998'}","{'person_id': ' ', 'orcid': ' ', 'name': 'Changqing Sun', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '67fb0afa559175727e467ca2080f484f', 'orcid': ' ', 'name': 'Yunjing Luo', 'email': '', 'org_name': 'Beijing University of Chemical Technology', 'org_id': '8bf29c94f1717065b3f4b65e3e0c792b', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'bd20c00b26f78fb683fd481ef4e7aba1', 'orcid': ' ', 'name': 'Sheng Qin', 'email': '', 'org_name': 'Jilin University', 'org_id': '4dd02337f0db3fa1bc95bc45c47978b4', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_96fced50e5a8c46984bb5e7ce96cc088,10.1002/(sici)1521-4109(199911)11:17<1280::aid-elan1280>3.0.co;2-m,Cobalt(II) Tetrasulfophthalocyanine Complex Adsorbed on a Silica Gel Surface Chemically Modified with 3-N-Propylpyridinium Chloride: Oxalic Acid Oxidation Study,1999,Emerson S. Ribeiro;Yoshitaka Gushikem,Emerson S. Ribeiro,TRUE,1999/11/1,11,17,1280,1284,1040-0397;1521-4109,Cobalt(II) tetrasulfophthalocyanine complex was adsorbed on the 3-N-propylpyridinium chloride functionalized silica gel surface by means of an ion exchange reaction. The specific surface area of the modified silica was SBET= 320?m2?g�C1 and the amount of the complex bonded to the substrate surface was 17?mol?g�C1. A carbon paste electrode made with electrocatalytically oxidized oxalic acid at an anodic potential E=850?mV in 0.5?M?KCl solution at pH?2. The anodic peak current intensities were linearly correlated with oxalic acid concentrations between 3.97 and 19.2��10�C2?M. The electrode showed a very reproducible response and was chemically very stable under various oxidation-reduction cycles. The electrode was applied in the determination of oxalic acid in a spinach sample.,Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,19,18,FALSE,,closed,�绯ѧ;��ѧ������,"{'org_name': '��Ƥ��˹������ѧ', 'org_id': '16f2f3eb6c8de0da8681d947fe489312'}","{'id': 'j_6bd32540ee22d1b06725be577bc8f1ff', 'zh_title': 'COPPER (II) TETRASULPHO-PHTHALOCYANINE ENTRAPPED IN A PROPYLPYRIDINIUMSILSESQUIOXANE POLYMER IMMOBILIZED ON A SiO2/Al2O3SURFACE: USE FOR ELECTROCHEMICAL OXIDATION OF ASCORBIC ACID', 'authors': 'S��rgio T. Fujiwara;Christiana A. Pess?a;Yoshitaka Gushikem', 'journal': 'Analytical Letters', 'year': '2002'};{'id': 'j_e6e4974ac339d3c032c71a49a808b819', 'zh_title': 'Sulfur Composite Materials Based on Sulfide Containing Industrial Waste', 'authors': 'A.A. Yusupova;R.T. Akhmetova;L.N. Shafigullin', 'journal': 'Solid State Phenomena', 'year': '2017'};{'id': 'j_c1c6999842c2905167884ba11cefd302', 'zh_title': 'Activating Effect of Aluminum Chloride in the Technology of Poly-Sulfides and Materials Based on them', 'authors': 'Alsu A. Yusupova;Aleksey I. Khatsrinov;Lenar N. Shafigullin', 'journal': 'Solid State Phenomena', 'year': '2020'};{'id': 'j_d3f60fccbc04e9a6b1f447cdb021493e', 'zh_title': 'Adsorption of metal halides from ethanol solutions by a 3-n-propylpyridiniumsilsesquioxane chloride-coated silica gel surface', 'authors': 'Ren?? V.S. Alfaya;S��rgio T. Fujiwara;Yoshitaka Gushikem;Yuriy V. Kholin', 'journal': 'Journal of colloid and interface science', 'year': '2004'};{'id': 'j_c1f9d2bddb99441c466533b438b8f1d1', 'zh_title': '3-n-Propylpyridinium chloride silsesquioxane polymer film-coated aluminumphosphate and adsorption of cobalt (II) tetrasulphophthalocyanine: an electrocatalytic oxidation study of oxalic acid', 'authors': 'Alzira M.S. Lucho;��rica C. Oliveira;Heloise O. Pastore;Yoshitaka Gushikem', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2004'};{'id': 'j_2fe0726ca0139a76f523f0b74ebfd2bd', 'zh_title': 'Electrochemical Studies of a New Iron Porphyrin Entrapped in a Propylpyridiniumsilsesquioxane Polymer Immobilized on a SiO2/Al2O3 Surface', 'authors': 'S?rgio?Toshio Fujiwara;Yoshitaka Gushikem;Christiana?Andrade Pessoa;Shirley Nakagaki', 'journal': 'Electroanalysis', 'year': '2005'};{'id': 'j_42d4ccbbbc5e5b52156c9a06d031ce63', 'zh_title': 'The various architectures and properties of a series of coordination polymers tuned by the central metals', 'authors': 'Xiu-Li Wang;Jian Luan;Hong-Yan Lin;Mao Le;Guo-Cheng Liu', 'journal': 'DALTON TRANSACTIONS', 'year': '2014'};{'id': 'j_dcc10a69931b8e3d1638960aed4946c4', 'zh_title': 'Electroanalysis with Pure, Chemically Modified and Sol-Gel-Derived Silica-Based Materials', 'authors': 'Alain Walcarius', 'journal': 'Electroanalysis', 'year': '2001'};{'id': 'j_67b72bb6f84888b51e5a035177097a70', 'zh_title': 'Electrochemical sensors and biosensors based on heterogeneous carbon materials', 'authors': 'Kurt Kalcher;Ivan Svancara;Marijo Buzuk;Karel Vytras;Alain Walcarius', 'journal': 'Monatshefte f��r Chemie - Chemical Monthly', 'year': '2009'};{'id': 'j_89ae07e63454eb9dca3b9b05b1203dce', 'zh_title': 'Silica nanoparticles doped with anthraquinone for lung cancer phototherapy', 'authors': 'Ronaldo Custodio de Souza Oliveira;Rodrigo Jos�� Corr��a;Raquel Simas Pereira Teixeira;Daniela Dias Queiroz;Rodrigo da Silva Souza;Simon John Garden;Nanci Camara de Lucas;Marcos Dias Pereira;Josu�� Sebasti��n Bello Forero;Eric Cardona Romani;Emerson Schwingel Ribeiro', 'journal': 'Journal of Photochemistry and Photobiology B: Biology', 'year': '2016'};{'id': 'j_f4ec81669494a006a05a7e98b8b27ee0', 'zh_title': 'Methylene blue immobilized on cellulose surfaces modified with titanium dioxide and titanium phosphate: factorial design optimization of redox properties', 'authors': 'S??lvio L.P. Dias;S��rgio T. Fujiwara;Yoshitaka Gushikem;Roy E. Bruns', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2002'};{'id': 'j_11506d53617d7650969df633a8482b61', 'zh_title': 'Silica-Based Materials and Derivatives', 'authors': 'Renato  Seeber;Fabio  Terzi;Chiara  Zanardi', 'year': '2014'};{'id': 'j_614367c360e37129da7757a1475bd926', 'zh_title': 'Hexacyanoferrate ion adsorbed on propylpyridiniumsilsesquioxane polymer film-coated SiO2/Al2O3: use in an electrochemical oxidation study of cysteine', 'authors': 'S��rgio T Fujiwara;Christiana A Pess?a;Yoshitaka Gushikem', 'journal': 'Electrochimica Acta', 'year': '2003'};{'id': 'j_ec3de7888adb95e025465bb1e30f5eee', 'zh_title': 'Anion separations for liquid chromatography using propylpyridinium silica as the stationary phase', 'authors': 'L��cia M.L.A. Auler;C��sar R. Silva;Carla B.G. Bottoli;Carol H. Collins', 'journal': 'Talanta', 'year': '2011'};{'id': 'j_c1044f755874cd9f773548962ef47677', 'zh_title': 'Electrochemical oxidation of oxalic acid by Rh octaethylporphyrin adsorbed on carbon black at low overpotential', 'authors': 'Shin-ichi Yamazaki;Yusuke Yamada;Naoko Fujiwara;Tsutomu Ioroi;Zyun Siroma;Hiroshi Senoh;Kazuaki Yasuda', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2007'};{'id': 'j_9b522bffef5c2597641f62bf67e56d88', 'zh_title': 'In situ preparation of Co phthalocyanine on a porous silica gel surface and the study of the electrochemical oxidation of oxalic acid', 'authors': 'M. Toledo;Alzira M. S. Lucho;Y. Gushikem', 'journal': 'Journal of Materials Science', 'year': '2004'};{'id': 'j_6c7e2b40ccc0c829f161eefdf3a7129c', 'zh_title': 'Graphite/Ag/AgCl nanocomposite as a new and highly efficient electrocatalyst for selective electroxidation of oxalic acid and its assay in real samples', 'authors': 'Taher Alizadeh;Sahar Nayeri', 'journal': 'Materials Science and Engineering: C', 'year': '2019'};{'id': 'j_43b862e6b1fb37088f124a0e0696e1bd', 'zh_title': 'Multifunctional Cobalt(II) Coordination Polymers Tuned by Flexible Bis(pyridylamide) Ligands with Different Spacers and Polycarboxylates', 'authors': 'Xiu-li Wang;Fang-fang Sui;Hong-yan Lin;Ju-wen Zhang;Guo-cheng Liu', 'journal': 'CRYSTAL GROWTH & DESIGN', 'year': '2014'};{'id': 'j_c396e4b22bc35bb72a42175fc1b83bf3', 'zh_title': 'Exciting new directions in the intersection of functionalized sol�Cgel materials with electrochemistry', 'authors': 'Alain Walcarius;Daniel Mandler;James A. Cox;Maryanne Collinson;Ovadia Lev', 'journal': 'Journal of Materials Chemistry', 'year': '2005'}","{'id': 'j_bdda8599668b32f6e5d1f3cc58509583', 'zh_title': 'Cyclic Voltammetry Study of Hexacyanoferrate Complex Immobilized on Silica Gel Surface Chemically Modified With Pyridinium Ion', 'authors': 'Lilian L. Lorencetti;Yoshitaka Gushikem', 'journal': 'Journal of the Brazilian Chemical Society', 'year': '1993'};{'id': 'j_8bfaf888dd3a4dfb38850a450f061eb5', 'zh_title': 'Complexes Derived from Strong Field Ligands. XIX. Magnetic Properties of Transition Metal Derivatives of 4,4\',4"",4\'\'\'-Tetrasulfophthalocyanine', 'authors': 'James H. Weber;Daryle H. Busch', 'journal': 'Inorganic Chemistry', 'year': '1965'};{'id': 'j_98e94a43cecee171297dbdb30ae2ec43', 'zh_title': 'Electrocatalytic response of cobalt phthalocyanine chemically modified electrodes toward oxalic acid and .alpha.-keto acids', 'authors': 'Leonel M. Santos;Richard P. Baldwin', 'journal': 'Analytical Chemistry', 'year': '1986'};{'id': 'j_eb9ff7f070669ac6a149d00dfebf7c48', 'zh_title': 'Ambient temperature acid extraction method for the determination of oxalic acid contents of vegetables', 'authors': 'Olalekan S. Fatoki', 'journal': 'Journal of Agricultural and Food Chemistry', 'year': '1991'};{'id': 'j_71fbbf11ee383f796a7744ac36b70a92', 'zh_title': 'Analytical Applications of Silica-Modified Electrodes -A Comprehensive Review', 'authors': 'Alain Walcarius', 'journal': 'Electroanalysis', 'year': '1999'};{'id': 'j_fc5c3719eda658fcb03ec9a563e4ab59', 'zh_title': 'Adsorption of Co(II) and Cu(II) on silica gel surface modified with pyridinium ion from acetone and ethanol solutions', 'authors': 'Yoshitaka Gushikem;Margarida S. Iamamoto', 'journal': 'Journal of Colloid and Interface Science', 'year': '1990'};{'id': 'j_2af29dec93a36e4e967f1340313a53d5', 'zh_title': 'Anion-exchange properties of ammonium salts immobilized on silica gel', 'authors': 'Pietro Tundo;Paolo Venturello;Enrico Angeletti', 'journal': 'Journal of the American Chemical Society', 'year': '1982'};{'id': 'j_e0f923835064c13a8b9a2d1f71707e74', 'zh_title': 'Sol-gel-derived cobalt phthalocyanine-dispersed carbon composite electrodes for electrocatalysis and amperometric flow detection', 'authors': 'Joseph Wang;Prasad V. A. Pamidi;Concepcion Parrado;Deog Su Park;Jose Pingarron', 'journal': 'Electroanalysis', 'year': '1997'};{'id': 'j_051e8fd902c72b7db20e7318e2cb656b', 'zh_title': 'Exchange properties of silica gel functionalized with pyridinium ion', 'authors': 'Yoshitaka Gushikem;Wania C. Moreira', 'journal': 'Colloids and Surfaces', 'year': '1987'};{'id': 'j_c9169c256e14276d7c89e65ea7f71056', 'zh_title': 'Recent studies in phthalocyanine chemistry', 'authors': 'A. B. P. Lever;M. R. Hempstead;C. C. Leznoff;W. Liu;M. Melnik;W. A. Nevin;P. Seymour', 'journal': 'Pure and Applied Chemistry', 'year': '1986'};{'id': 'j_8deb66acd89ff9634b337331badd7db7', 'zh_title': 'Liquid chromatography and electrochemical detection of organic peroxides by reduction at an iron phthalocyanine chemically modified electrode', 'authors': 'Xiaohe Qi;Richard P. Baldwin', 'journal': 'Electroanalysis', 'year': '1993'};{'id': 'j_2c2fc3479295450355921bfcb8947c0f', 'zh_title': 'Iron(II) tetrasulphophthalocyanine complex adsorbed on a silica gel surface chemically modified by 3-n-propylpyridinium chloride', 'authors': 'Emerson S Ribeiro;Yoshitaka Gushikem', 'journal': 'Electrochimica Acta', 'year': '1999'};{'id': 'j_085b27bb3149a8834a754576df83dffd', 'zh_title': 'Cathodic reduction of oxygen and hydrogen peroxide at cobalt and iron crowned phthalocyanines adsorbed on highly oriented pyrolytic graphite electrodes', 'authors': 'Nagao Kobayashi;Pavel Janda;A. B. P. Lever', 'journal': 'Inorganic Chemistry', 'year': '1992'};{'id': 'j_00f642d6db01919f8c5c71454f4b7a2b', 'zh_title': 'Adsorption and pre-concentration of some metal ions from ethanol on silica gel modified with pyridinium ion', 'authors': 'Margarida S. Iamamoto;Yoshitaka Gushikem', 'journal': 'Analyst', 'year': '1989'};{'id': 'j_2727be0a74c00867755159d6bc4b9cc7', 'zh_title': 'Electrochemistry and spectroelectrochemistry of mononuclear and binuclear cobalt phthalocyanines', 'authors': 'W. A. Nevin;M. R. Hempstead;W. Liu;C. C. Leznoff;A. B. P. Lever', 'journal': 'Inorganic Chemistry', 'year': '1987'};{'id': 'j_a769894a3ce44a1c99c234d9ec582d38', 'zh_title': 'Potentiometric study using chemically modified silica gel with pyridinium as membrane for ClO 4 ? ions', 'authors': 'Lilian L. Lorencetti;Yoshitaka Gushikem;Lauro T. Kubota;Graciliano de Oliveira Neto;Jo?o R. Fernandes', 'journal': 'Microchimica Acta', 'year': '1995'};{'id': 'j_0e74dad4fdec84b7cf53c38ebce89c23', 'zh_title': 'Adsorption of metal ions from aqueous and ethanol solutions by silica gel functionalized with pyridinium ions', 'authors': 'Margarida S Iamamoto;Yoshitaka Gushikem', 'journal': 'Journal of Colloid and Interface Science', 'year': '1989'};{'id': 'j_9db38b457c17a7cab0341fc0fbdd5b60', 'zh_title': 'Adsorption of MX2 (M = Mn, Ni, Cu, Zn, and Cd; X = Cl, Br, and I) and FeCl3 by modified silica surface with imidazolylpropyl group', 'authors': 'Yoshitaka Gushikem;Jos��C Moreira', 'journal': 'Journal of Colloid and Interface Science', 'year': '1985'}","{'person_id': '643c97cf8051a992c22bd961a153baa7', 'orcid': ' ', 'name': 'Yoshitaka Gushikem', 'email': '', 'org_name': 'State University of Campinas', 'org_id': '83e5b0ca8fbe4bc2fbd3263e1293b281', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'de492eacee2b71d59b9aa60cd33aef77', 'orcid': 'https://orcid.org/0000-0001-8134-0274', 'name': 'Emerson Schwingel Ribeiro', 'email': '', 'org_name': 'State University of Campinas', 'org_id': '83e5b0ca8fbe4bc2fbd3263e1293b281', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_50fb18ed2df90dc639fc8e94f7e1ea6f,10.1002/(sici)1521-4109(199911)11:17<1285::aid-elan1285>3.0.co;2-t,Reduction of Different Nitro-Compounds on Electroenzymatic System: Cytochrome c Reductase-NAD(P)H Modified Carbon Paste Electrode,1999,M. Merino;L. J. Nu?ez-Vergara;J. A. Squella,M. Merino,TRUE,1999/11/1,11,17,1285,1292,1040-0397;1521-4109,"A flavoenzyme cytochrome c reductase NAD(P)H mixture has been used to modify a carbon paste electrode. The modified electrode was characterized by cyclic voltammetry varying the scan rate and temperature. Cathodic and anodic peaks were observed at �C0.45 and �C0.39?V, respectively, for a scan rate of 100?mV/s. The enzyme-electrode is found to reduce electrocatalytically nitroimidazole and nitrofurane compounds. However, this effect was not observed on the reduction of nitrobenzene derivatives such as nitrobenzene substituted 1,4-dihydropyridines. Conditions such as pH and percentage of DMF have been optimized for the determination of these nitro-compounds. The best electrocatalytic reactions were obtained at pH 8.5, coincident with the optimal activity of the enzyme.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,6,31,FALSE,,closed,��ѧ������;�绯ѧ,{},"{'id': 'j_33e2f03e14bb66164a5c34d3c5f638f1', 'zh_title': 'Voltammetric Determination of Antibacterial Nitro-Compounds at Activated Carbon Fibre Microelectrodes', 'authors': 'A. Guzm��n;L. Ag����;M. Pedrero;P. Y��?ez-Sede?o;J.\u2005M. Pingarr��n', 'journal': 'Electroanalysis', 'year': '2004'};{'id': 'j_08fbfbae635be6c096c25afd2cca30b7', 'zh_title': 'd-(+)-Galactose-Conjugated Single-Walled Carbon Nanotubes as New Chemical Probes for Electrochemical Biosensors for the Cancer Marker Galectin-3', 'authors': 'Young Kum Park;Bayarmaa Bold;Woo Kyung Lee;Min Hyon Jeon;Kay Hyeok An;Seung Yol Jeong;Young Key Shim', 'journal': 'International Journal of Molecular Sciences', 'year': '2011'};{'id': 'j_ad65636fd0b1e0fffcaa798f21a03bac', 'zh_title': 'Highly Sensitive Nanostructured Electrochemical Sensor Based on Carbon Nanotubes-Pt Nanoparticles Paste Electrode for Simultaneous Determination of Levodopa and Tyramine', 'authors': 'Mehdi Baghayeri;Hadi Beitollahi;Ali Akbari;Samaneh Farhadi', 'journal': 'Russian Journal of Electrochemistry', 'year': '2018'};{'id': 'j_2af9816935cfd0458382ee32f66b6890', 'zh_title': 'Efficient Reduction of Nitrobenzene to Aniline with a Biocatalyzed Cathode', 'authors': 'Ai-Jie Wang;Hao-Yi Cheng;Bin Liang;Nan-Qi Ren;Dan Cui;Na Lin;Byung Hong Kim;Korneel Rabaey', 'journal': 'Environmental Science & Technology', 'year': '2011'};{'id': 'j_95a58e1c32b0d2b1295e5fb1b06f074b', 'zh_title': 'Micellar high performance liquid chromatographic determination of tinidazole in combination with ciprofloxacin or norfloxacin in bulk, pharmaceutical dosage forms and in spiked human plasma', 'authors': 'Mohamed Rizk;Safaa Shafik Toubar;Maha Mahmoud Abou El�\Alamin;Marwa Mohamed Mahmoud Azab', 'journal': 'European Journal of Chemistry', 'year': '2014'};{'id': 'j_4af2ed1fdf0063b8c5d42810acb82db0', 'zh_title': 'Electronic and physicochemical properties of selected nitrofurans: A theoretical study', 'authors': 'Catalina Soriano-Correa;Ang��lica Raya;Juan F. S��nchez-Ruiz;Rodolfo O. Esquivel', 'journal': 'International Journal of Quantum Chemistry', 'year': '2005'}","{'id': 'j_a8e9875cc50778c0cedbcd0b969c6515', 'zh_title': 'Sensors based on carbon paste in electrochemical analysis: A review with particular emphasis on the period 1990-1993', 'authors': 'K. Kalcher;J.-M. Kauffmann;J. Wang;I. ?vancara;K. Vyt?as;C. Neuhold;Z. Yang', 'journal': 'Electroanalysis', 'year': '1995'};{'id': 'j_59385eb619b6d2773dd6270fe8f90e9b', 'zh_title': 'Studies on diphosphopyridine nucleotide-cytochrome c reductase. II. Purification and properties.', 'authors': 'H R MAHLER;N K SARKAR;L P VERNON', 'journal': 'The Journal of biological chemistry', 'year': '1952'};{'id': 'j_9daae3c2dad8555fb8698a26ce7ab001', 'zh_title': 'Methods in Enzymology]  Volume 2 || [120] DPNH cytochrome c reductase (animal)', 'authors': 'Mahler, Henry R.', 'journal': 'Methods in Enzymology', 'year': '1955'};{'id': 'j_96980e01527937710bf9286188cc061b', 'zh_title': 'THE PREPARATION AND PROPERTIES OF A SOLUBLE DIPHOSPHOPYRIDINE NUCLEOTIDE CYTOCHROME c REDUCTASE', 'authors': 'H. Edelhoch;Osamu. Hayaishi;L.J. Teply', 'journal': 'The Journal of biological chemistry', 'year': '1952'};{'id': 'j_199c25612c749fad567db35af403420f', 'zh_title': 'Electroanalysis and Biosensors', 'authors': 'Joseph Wang', 'journal': 'Analytical chemistry', 'year': '1999'};{'id': 'j_dc855ce3944902322b557da425c5cc49', 'zh_title': 'Silicone-grease-based immobilisation method for the preparation of enzyme electrodes', 'authors': 'Michelle P. Connor;Juanita Sanchez;Joseph Wang;Malcolm R. Smyth;Saverio Mannino', 'journal': 'The Analyst', 'year': '1989'};{'id': 'j_4f416e5ada8c0f18ab4f079cf6456254', 'zh_title': 'Evidence for the direct interaction of reduced metronidazole derivatives with DNA bases', 'authors': 'Joanne H. Tocher;David I. Edwards', 'journal': 'Biochemical pharmacology', 'year': '1994'};{'id': 'j_30a8c3b5aefbcccfb84fd66c15abab07', 'zh_title': 'Electrochemical Characteristics of Nitroheterocyclic Compounds of Biological Interest. VIII Stability of Nitro Radical Anions from Cyclic Voltammetric Studies', 'authors': 'Joanne H. Tocherz;David I. Edwards', 'journal': 'Free Radical Research', 'year': '1992'};{'id': 'j_77bdb53f2be179da78327aecf637f34d', 'zh_title': 'Amperometric biosensors based on an apparent direct electron transfer between electrodes and immobilized peroxidases. 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+j_4a453d4c0ecd355a75cd66ac1fcf1e02,10.1002/(sici)1521-4109(199911)11:17<1293::aid-elan1293>3.0.co;2-2,Electrocatalytic Oxidation of Hydrazine at Glassy Carbon Electrode Modified with Electrodeposited Film Derived from Caffeic Acid,1999,S. M. Golabi;H. R. Zare,S. M. Golabi,TRUE,1999/11/1,11,17,1293,1300,1040-0397;1521-4109,"A caffeic acid modified glassy carbon electrode was constructed for the electrocatalytic detection of hydrazine. This modified electrode enabled hydrazine to be catalytically oxidized at a greatly reduced overpotential and in a wide operational pH range (pH 5.0�C9.0). The overall number of electrons involved in the catalytic oxidation of hydrazine and the number of electrons involved in the rate determining step are 4 and 1, respectively. The rate constant for the catalytic reaction was evaluated by chronoamperometry, cyclic voltammetry and RDE voltammetry and was found to be around 10�C3?cm?s�C1. Experiments were performed to characterize the electrode as an amperometric sensor for the determination of hydrazine and linear calibration plots were obtained over the range of 0.01 to 2.0?mM for linear sweep voltammetry and chronoamperometry. Amperometry in stirred solution exhibits a linear dynamic range of 2.5?��M to 1.0?mM (correlation coefficient 0.9993) and a detection limit of 0.4?M. The resulting modified electrode retains its initial response for at least 2 weeks if stored in phosphate buffer (pH 4). The precision of amperometry was found to be 1.8?% for replicate determinations of a 1.0?mM solution of hydrazine (n=12).",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,83,30,FALSE,,closed,��ѧ������;�绯ѧ,{},"{'id': 'j_8634fa0cacfa275bd6257c1ec451ec14', 'zh_title': 'Electrocatalytic oxidation of hydrazine at a pyrocatechol violet (PCV) chemically modified electrode', 'authors': 'S.M. Golabi;H.R. Zare;M. 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+j_4ce35e43ceacb20255a6b2a61d77cfe1,10.1002/(sici)1521-4109(199912)11:18<1333::aid-elan1333>3.0.co;2-6,Microcylinder Polymer Modified Electrodes as Amperometric Detectors for Liquid Chromatographic Analysis of Catecholamines,1999,"M. Marazuela;L. Ag����;A. Gonz��lez-Cort��s;P. Y��?ez-Sede?o,;J. M. Pingarr��n",M. Marazuela,TRUE,1999/12/1,11,18,1333,1339,1040-0397;1521-4109,"The use of cylindrical carbon fiber microelectrodes (CFMEs) of various mm in length modified with poly(3-methylthiophene) (P3MT) films as amperometric microsensors for the LC-EC detection of catecholamines is reported. Cyclic voltammetry at the modified microelectrodes of dopamine, epinephrine, catechol, serotonin and ascorbic acid showed electrocatalytic ability of the modified surface. This allowed the application of low potentials (a0.35 V) for the amperometric detection of the above-mentioned compounds. Flow injection measurements carried out using a 2:98 v=v methanol:0.025 mol L ��1 H2PO4 �� =HPO4 2�� solution of pH 7.0, showed no evidence of fouling of the modified microelectrode surface. No cleaning or regeneration treatment was needed when working with the same polymer modified microelectrode during the whole working day. Moreover, RSD values for ip lower than 5 % were obtained when amperometric measurements were carried out with three different P3MT-coated CFMEs. These modified microelectrodes have also shown to be suitable for amperometric detection in HPLC. A mobile phase composed of 2:98 % methanol:phosphate buffer solution of pH 7.0 allowed a good separation of mixtures of ascorbic acid, epinephrine, dopamine, serotonin and catechol with detection limits ranging between 14 and 48 pmol. Furthermore, as an application, the determination of those compounds in spiked serum samples, was accomplished with good results.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,30,24,FALSE,,closed,��ѧ������;�绯ѧ,{},"{'id': 'j_d8d896c3dd37015ebcd24aaec5496ccf', 'zh_title': 'Flow Injection Analysis of Mixtures of Dopamine, Adrenaline and Ephedrine in Human Biofluids Using Stabilized after Storage in Air Lipid Membranes with a Novel Incorporated Resorcin4]arene Receptor', 'authors': 'Dimitrios\u2005P. Nikolelis;Christina\u2005G. Siontorou;George Theoharis;Istv��n Bitter', 'journal': 'Electroanalysis', 'year': '2005'};{'id': 'j_a7e1cb91f249414de7ca73b354dd66b5', 'zh_title': 'Advances in the Voltammetric Analysis of Small Biologically Relevant Compounds', 'authors': 'Nathan S. Lawrence;Emma L. Beckett;James Davis;Richard G. Compton', 'journal': 'Analytical biochemistry', 'year': '2002'};{'id': 'j_964c3d5e6ec298c4193a7965bfdcd1f4', 'zh_title': 'Multimembrane carbon fiber microelectrodes for amperometric determination of serotonin in human urine', 'authors': 'Susana de Irazu;Nora Unceta;M. Carmen Sampedro;M. Aranzazu Goicolea;Ram��n J. Barrio', 'journal': 'The Analyst', 'year': '2001'};{'id': 'j_6a986f164473f6cec02a0f1dc7fa957e', 'zh_title': 'Flow injection spectrophotometric determination of adrenaline using a solid-phase reactor containing triiodide ions immobilized in an anion-exchange resin', 'authors': 'H. J. Vieira;O. Fatibello-Filho', 'journal': 'Ecl��tica Qu��mica', 'year': '2004'};{'id': 'j_58746ea1fd8326af5da6606e425401ef', 'zh_title': 'Electrogenerated Chemiluminescence (ECL) Determination of Ephedrine with a Self-Assembly Multilayer Ni(II)-Polyluminol Modified Electrode', 'authors': 'Guixin Li;Xingwang Zheng;Zhujun Zhang', 'journal': 'MICROCHIMICA ACTA', 'year': '2006'};{'id': 'j_d6e161b5b03b192485f521460c7aca74', 'zh_title': 'Molecularly imprinted polytetra(o-aminophenyl)porphyrin] as a stable and selective coating for the development of voltammetric sensors', 'authors': 'Alberto G��mez-Caballero;Ana Ugarte;Alicia S��nchez-Ortega;Nora Unceta;M. Aranzazu Goicolea;Ram��n J. Barrio', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2010'};{'id': 'j_3635dfcfbb41496165793fbcd0e36e6a', 'zh_title': 'LIQUID CHROMATOGRAPHIC DETERMINATION OF LYSINE BY POTENTIOMETRIC DETECTION WITH A BIOSENSOR', 'authors': 'N. Garc��a-Villar;J. Saurina;S. Hern��ndez-Cassou', 'journal': 'Analytical Letters', 'year': '2002'};{'id': 'j_4f716a3910dbea1a77a3aa32afe38dce', 'zh_title': 'Determination of ��-carboline alkaloids in foods and beverages by high-performance liquid chromatography with electrochemical detection at a glassy carbon electrode modified with carbon nanotubes', 'authors': 'Lourdes Ag����;Carlos Pe?a-Farfal;Paloma Y��?ez-Sede?o;Jos�� M. Pingarr��n', 'journal': 'Analytica chimica acta', 'year': '2007'};{'id': 'j_8f3c1f35f88c529a859aa9fd6e3f84b3', 'zh_title': 'Electrochemical synthesis of gold nanoparticles on the surface of multi-walled carbon nanotubes with glassy carbon electrode and their application', 'authors': 'Y. Z. Song;X. Li;Y. Song;Z. P. Cheng;H. Zhong;J. M. Xu;J. S. Lu;C. G. Wei;A. F. Zhu;F. Y. Wu;J. 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Zanardi;F. Terzi;R. Seeber', 'journal': 'Analytical and Bioanalytical Chemistry', 'year': '2012'};{'id': 'j_da9634adfbacbf37bf5babbfd8a05faf', 'zh_title': 'Electrochemical Determination of Chlorophenols at Microcylinder Poly(3-methylthiophene) Modified Electrodes Based on a Previous Chemical Oxidation Using Bis(trifluoroacetoxy)iodobenzene', 'authors': 'L. Ag����;B. Serra;P. Y��?ez-Sede?o;A. J. Reviejo;J. M. Pingarr��n', 'journal': 'Electroanalysis', 'year': '2001'};{'id': 'j_879b11240728ca3f9bf7f179242af663', 'zh_title': 'Electrochemical investigation of interactions of bilayer lipid membranes (BLMs) with incorporated resorcin4]arene receptor with ephedrine for the development of a stabilized lipid film biosensor for ephedrine', 'authors': 'Dimitrios P Nikolelis;Syrago-Styliani E Petropoulou;George Theoharis', 'journal': 'Electrochimica Acta', 'year': '2002'};{'id': 'j_8abbf63353a68f957378da014a1e0c03', 'zh_title': 'Preparation of a Selective Receptor for Ephedrine for the Rapid Electrochemical Detection of Ephedrine in Human Urine Using Stabilized in Air Lipid Films with Incorporated Ephedrine Receptor', 'authors': 'Dimitrios\u2005P. Nikolelis;Garyfallia Raftopoulou;Christina\u2005G. Siontorou', 'journal': 'Electroanalysis', 'year': '2005'};{'id': 'j_21a203867dc3f359b32afafeda33cedf', 'zh_title': 'Electrochemical behaviors of adrenaline at acetylene black electrode in the presence of sodium dodecyl sulfate', 'authors': 'Pingping Xie;Xiaoxia Chen;Fang Wang;Chengguo Hu;Shengshui Hu', 'journal': 'COLLOIDS AND SURFACES B-BIOINTERFACES', 'year': '2006'};{'id': 'j_3684e735ec1c925b77469734472b3372', 'zh_title': 'The steady-state current at microcylinder electrodes modified by enzymes immobilized in conducting or non-conducting material', 'authors': 'M. Somasundrum;K. Aoki', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2002'};{'id': 'j_51f9fff683eb48def6faee694fb7622c', 'zh_title': 'Bioanalytical utility of sonovoltammetry', 'authors': 'Emma L Beckett;Nathan S Lawrence;Yu Chen Tsai;James Davis;Richard G Compton', 'journal': 'Journal of pharmaceutical and biomedical analysis', 'year': '2001'};{'id': 'j_1bd08bfad7c74b12de08859aa00bf435', 'zh_title': 'Investigation of interactions of a resorcin4]arene receptor with bilayer lipid membranes (BLMs) for the electrochemical biosensing of mixtures of dopamine and ephedrine', 'authors': 'Dimitrios P. Nikolelis;Syrago-Styliani E. Petropoulou', 'journal': 'Biochimica et biophysica acta', 'year': '2002'};{'id': 'j_e482656fa4221d3c4bb55918717a823d', 'zh_title': 'The determination of adrenaline on the porous gold film modified glassy carbon electrode', 'authors': 'Like Zhang;Yu Jun Yang;Baoan Liang;Shengshui Hu', 'journal': 'Russian Journal of Electrochemistry', 'year': '2011'};{'id': 'j_e31af86e8f7ffc4c7203da79993fca39', 'zh_title': 'A Novel Fiber Optic Biosensor for the Determination of Adrenaline Based on Immobilized Laccase Catalysis', 'authors': 'Jun Huang;Hua Fang;Cheng Liu;Erdan Gu;Desheng Jiang', 'journal': 'ANALYTICAL LETTERS', 'year': '2008'};{'id': 'j_e7875a9f0a9b3563c2b0187bde6877be', 'zh_title': 'Simultaneous determination of ascorbic acid, uric acid and neurotransmitters with a carbon ceramic electrode prepared by sol�Cgel technique', 'authors': 'Abdollah Salimi;Hussein MamKhezri;Rahman Hallaj', 'journal': 'Talanta', 'year': '2006'};{'id': 'j_976814dd810e0f1391f89f51356ec426', 'zh_title': 'Monographs in Electrochemistry] Functional Materials in Amperometric Sensing || Intrinsically Conducting Polymers', 'authors': 'Seeber, Renato; Terzi, Fabio; Zanardi, Chiara ', 'year': '2014'};{'id': 'j_75f39f0a842d71b3f54d86e6cac80893', 'zh_title': 'Efficient Electrocatalytic Detection of Epinephrine at Gold Electrodes Modified with Self-Assembled Metallo-Octacarboxyphthalocyanine Complexes', 'authors': 'Bolade\u2005O. Agboola;Kenneth\u2005I. Ozoemena', 'journal': 'Electroanalysis', 'year': '2008'};{'id': 'j_8995e8a2c5990be27c9422723d96525c', 'zh_title': 'A Sensitive Simultaneous Determination of Epinephrine and Piroxicam Using a Glassy Carbon Electrode Modified with a Nickel Hydroxide Nanoparticles/Multiwalled Carbon Nanotubes Composite', 'authors': 'Ali Babaei;Masoud Sohrabi;Mohammad Afrasiabi', 'journal': 'Electroanalysis', 'year': '2012'};{'id': 'j_7d57d5518e2b9134d7a0a2519772e804', 'zh_title': 'Simultaneous Diagnostic Assay of Catechol and Caffeine Using an in vivo Implanted Neuro Sensor', 'authors': 'Suw-Young  Ly;Chang Hyun Lee;Young-Sam  Jung;O-Min  Kwon;Jieun  Lee;Seung-Min  Baek;Kyu-Ju  Kwak', 'journal': 'Bulletin of The Korean Chemical Society', 'year': '2008'};{'id': 'j_f255471df69a18bde0a1a6ff8827fd39', 'zh_title': 'Determination of adrenaline by using inhibited Ru(bpy)32+ electrochemiluminescence', 'authors': 'Feng Li;Hua Cui;Xiang-Qin Lin', 'journal': 'ANALYTICA CHIMICA ACTA', 'year': '2002'};{'id': 'j_82131048a10980fe1cd4157ad442f46a', 'zh_title': 'Electrochemically Pretreated Carbon Microfiber Electrodes as Sensitive HPLC-EC Detectors', 'authors': 'Zdenka Bartosova;Daniel Riman;Petr Jakubec;Vladimir Halouzka;Jan Hrbac;David Jirovsky', 'journal': 'The Scientific World Journal', 'year': '2012'}","{'id': 'j_d3503eb02c20b65f634ef52e25d2e4d2', 'zh_title': 'Mechanism of cathodic reactions at electron-conducting polymer films: electroreduction of chloranil and tetracyanoquinodimethane at a poly-3-methylthiophene-coated glassy carbon electrode', 'authors': 'M.D. Levi;N.M. Alpatova;E.V. Ovsyannikova;M.A. Vorotyntsev', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1993'};{'id': 'j_247faa65a174c5afc702ccab75e606ed', 'zh_title': 'Quantitative determination of catecholamines in individual bovine adrenomedullary cells by reversed-phase microcolumn liquid chromatography with electrochemical detection', 'authors': 'Bruce R. Cooper;Jeffrey A. Jankowski;David J. Leszczyszyn;R. Mark. Wightman;James W. Jorgenson', 'journal': 'Analytical Chemistry', 'year': '1992'};{'id': 'j_4497179dec23330256664254181bdc8c', 'zh_title': 'NADH amperometric sensor based on poly(3-methylthiophene)-coated cylindrical carbon fiber microelectrodes: application to the enzymatic determination of L-lactate', 'authors': 'P Jaraba;L Ag��??;P Y��?ez-Sede?o;J.M Pingarr��n', 'journal': 'Electrochimica Acta', 'year': '1998'};{'id': 'j_3d80107698f2fe86a4265d7399b43d1d', 'zh_title': 'Determination of epinine in human urine by high-performance liquid chromatography coupled with electrochemical detection using carbon fiber microelectrodes', 'authors': 'Chi Hua;Hian Kee Lee;An Kong Hsieh', 'journal': 'Electroanalysis', 'year': '1994'};{'id': 'j_d62d7c3a9f2f4614f06856aa94a48fc6', 'zh_title': 'Integrated On-Capillary Electrochemical Detector for Capillary Electrophoresis', 'authors': 'Min Zhong;Susan M. Lunte', 'journal': 'Analytical Chemistry', 'year': '1996'};{'id': 'j_9dbe38a06ad2044c9de3ec7d8b9842ed', 'zh_title': 'The electrochemistry of neurotransmitters at conducting organic polymer electrodes: electrocatalysis and analytical applications', 'authors': 'Harry B. Mark;N. Atta;Y.L. Ma;K.L. Petticrew;H. Zimmer;Y. Shi;S.K. Lunsford;J.F. Rubinson;Ahmed Galal', 'journal': 'Bioelectrochemistry and Bioenergetics', 'year': '1995'};{'id': 'j_80f2a4620dcd83699ec55c147c1a605a', 'zh_title': 'Microelectrodes for the Measurement of Catecholamines in Biological Systems', 'authors': 'Paula S. Cahill;Q. David Walker;Jennifer M. Finnegan;George E. Mickelson;Eric R. Travis;R. Mark Wightman', 'journal': 'Analytical Chemistry', 'year': '1996'};{'id': 'j_a8d5505f76d59d06d27d4691637ad5b1', 'zh_title': 'Separation of serotonin from catechols by capillary zone electrophoresis with electrochemical detection', 'authors': 'Ross A. Wallingford;Andrew G. Ewing', 'journal': 'Analytical chemistry', 'year': '1989'};{'id': 'j_b4ee851ad3539ed1a852fb03ef2ed83f', 'zh_title': 'Subfemtomole Detection of Catecholamine with Interdigitated Array Carbon Microelectrodes in HPLC', 'authors': 'Hisao. Tabei;Masaya. Takahashi;Satoshi. Hoshino;Osamu. Niwa;Tsutomu. Horiuchi', 'journal': 'Analytical Chemistry', 'year': '1994'};{'id': 'j_deb5fbc2dcf8094141a131dcf346a69a', 'zh_title': 'Carbon fiber electrode cell for square wave voltammetric detection of biogenic amines in high-performance liquid chromatography', 'authors': 'Samuel P. Kounaves;James B. Young', 'journal': 'Analytical Chemistry', 'year': '1989'};{'id': 'j_b2a45718ed0ce9a2a6ff4ad03779fba6', 'zh_title': 'Analytical Applications of Cylindrical Carbon Fiber Microelectrodes. Simultaneous Voltammetric Determination of Phenolic Antioxidants in Food', 'authors': 'M. L. Agui;A. J. Reviejo;P. Yanez-Sedeno;J. M. Pingarron', 'journal': 'Analytical Chemistry', 'year': '1995'};{'id': 'j_0768734a507a78d6cfe1aa6566f51de3', 'zh_title': 'Simultaneous, selective detection of catecholaminergic and indolaminergic signals using cyclic voltammetry with treated micro-sensor', 'authors': 'Francesco Crespi;Tim G. England;David G. Trist', 'journal': 'Journal of Neuroscience Methods', 'year': '1995'};{'id': 'j_4e9ac2d9fb3eac56ed04cf2c1816034c', 'zh_title': 'Voltammetric behaviour of poly(3-methylthiophene)-coated cylindrical carbon fibre microelectrodes: electrochemical oxidation of the antioxidant propyl g��llate', 'authors': 'L. Ag����;MA. L��pez-Huertas;P. Y��?ez-Sede?o;J.M. Pingarr��n', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1996'};{'id': 'j_75b10030715e4a74437d32a5fd5c442a', 'zh_title': 'Amperometric Detection in Capillary Electrophoresis with an Etched Joint', 'authors': 'Shen Hu;Zong-Li Wang;Pei-Biao Li;Jie-Ke Cheng', 'journal': 'Analytical Chemistry', 'year': '1997'};{'id': 'j_cbde33c8c8e24d6673aa1b0112e9d8aa', 'zh_title': 'Analytical applications of poly(3-methylthiophene)-coated cylindrical carbon fiber microelectrodes', 'authors': 'L. Ag����;P. Y��?ez-Sede?o;J. M. Pingarr��n', 'journal': 'Electroanalysis', 'year': '1997'};{'id': 'j_4eb8cb588902c0e1d9830c770dba8404', 'zh_title': 'Optimization of preparation of poly(3-methylthiophene)-modified Pt microelectrodes for detection of catecholamines', 'authors': 'H. Zhang;S.K. Lunsford;I. Marawi;J.F. Rubinson;H.B. Mark', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1997'};{'id': 'j_127dfcc28a12ec3b818dc008946f6b2e', 'zh_title': 'Analysis of salbutamol in human plasma by high-performance liquid chromatography with electrochemical detection using a micro-electrochemical flow cell', 'authors': 'Kamal A. Sagar;Chi Hua;Mary T. Kelly;Malcolm R. Smyth', 'journal': 'Electroanalysis', 'year': '1992'};{'id': 'j_c085604a931627d0c875a11a2a98efd9', 'zh_title': 'Carbon fibre micro-electrodes for concomitant in vivo electrophysiological and voltammetric measurements: no reciprocal influences', 'authors': 'Francesco Crespi;Tim England;Emiliangelo Ratti;David G. Trist', 'journal': 'Neuroscience Letters', 'year': '1995'};{'id': 'j_39b8d0c06f57d9b47c4859315bdc45a1', 'zh_title': 'Electrochemistry and Characterization of Some Organic Molecules at ��Microsize�� Conducting Polymer Electrodes', 'authors': 'Ahmed Galal', 'journal': 'Electroanalysis', 'year': '1998'};{'id': 'j_f125f0a8c5391d8c8869543aae60881d', 'zh_title': 'Real-time characterization of dopamine overflow and uptake in the rat striatum', 'authors': 'R.M. Wightman;C. Amatorh;R.C. Engstrom;P.D. Hale;E.W. Kristensen;W.G. Kuhr;L.J. May', 'journal': 'Neuroscience', 'year': '1988'};{'id': 'j_1b5be0995382e578a74b7a08c5d9e18f', 'zh_title': 'Flow rate independent amperometric cell', 'authors': 'W. Lowry. Caudill;Jonathon O. Howell;R. Mark. Wightman', 'journal': 'Analytical Chemistry', 'year': '1982'};{'id': 'j_c6019314faf22197089953a62a5dd487', 'zh_title': 'Membrane-Based On-Column Mixer for Capillary Electrophoresis/Electrochemistry', 'authors': 'Jianxun. Zhou;Susan M. Lunte', 'journal': 'Analytical Chemistry', 'year': '1995'};{'id': 'j_92f01d14dc8528ce355d2f087bcb0132', 'zh_title': 'Glassy carbon microband electrochemical detector for high-performance liquid chromatography', 'authors': 'Javad M. Zadeii;Rosalind Mitchell;Theodore Kuwana', 'journal': 'Electroanalysis', 'year': '1990'};{'id': 'j_9b017ee3ffa91d91d42eb6eb2c69d237', 'zh_title': 'Voltammetry in the Neurosciences', 'authors': 'Joseph B. Justice', 'year': '1987'}","{'person_id': 'caa5b9655e5ec4be7e5ad03261e3499d', 'orcid': 'https://orcid.org/0000-0002-1232-2723', 'name': 'Paloma Y��?ez-Sede?o', 'email': '', 'org_name': 'Complutense University of Madrid', 'org_id': '0c10952262bfedf04785b08fefe7f9e1', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'c8ebf9e026e52a14570aca20aded18af', 'orcid': 'https://orcid.org/0000-0001-9054-9993', 'name': 'Araceli Gonz��lez-Cort��s', 'email': '', 'org_name': 'Complutense University of Madrid', 'org_id': '0c10952262bfedf04785b08fefe7f9e1', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '3ed6b6179654c9c3ed116b7e08665aba', 'orcid': ' ', 'name': 'Lourdes Ag����', 'email': '', 'org_name': 'Complutense University of Madrid', 'org_id': '0c10952262bfedf04785b08fefe7f9e1', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'a0126157e1b75d2465579a3d36a853ea', 'orcid': 'https://orcid.org/0000-0003-2271-1383', 'name': 'Jos�� M. Pingarr��n', 'email': '', 'org_name': ' ', 'org_id': ' ', 'author_num': 5, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'd9b968dbf9d0dfa740ecdbb04df233bb', 'orcid': ' ', 'name': 'M. Marazuela', 'email': '', 'org_name': 'Complutense University of Madrid', 'org_id': '0c10952262bfedf04785b08fefe7f9e1', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_446816c237a9a7fa8db639c1b96785f5,10.1002/(sici)1521-4109(200002)12:3<194::aid-elan194>3.0.co;2-6,A Reagentless Amperometric Carbon Paste Based Sensor for NADH,2000,Albertas Malinauskas;Tautgirdas Ruzgas;Lo Gorton;Lauro T. Kubota,Albertas Malinauskas,TRUE,2000/2/1,12,3,194,198,1040-0397;1521-4109,"Carbon paste electrodes, based on zirconium phosphate with immobilized N-methylphenazonium or Nile blue, were prepared. The electrodes show anodic current response to NADH at an operating potential ranging from �C0.05 to 0.30?V (vs. SCE). The sensitivity of electrodes to NADH was shown to increase with increasing operation potential. It was shown that the concentration dependences for electrodes, obtained at different operating potentials, follow Michaelis-Menten scheme, confirming an electrocatalytic mechanism for electrooxidation of NADH with a precursor complex formation. The detection limit for NADH was found to be ca. 2?��M for both types of sensors.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,23,41,FALSE,,closed,�绯ѧ;��ѧ������,"{'org_name': 'Institute of Chemistry', 'org_id': 'c80fb3fc7b5a04062888337c5cc00495'};{'org_name': '��Ƥ��˹������ѧ', 'org_id': '16f2f3eb6c8de0da8681d947fe489312'};{'org_name': '¡�´�ѧ', 'org_id': '95179179005f3fb97ecc0a2cebaba91e'}","{'id': 'j_886ff43d8ce772f3b999074121e5c04f', 'zh_title': 'Perspectives of upconverting luminescent nanoparticles for (bio)-analytical applications', 'authors': 'Stefan  Wilhelm', 'year': '2015'};{'id': 'j_183c8c0c7042414faeb7c8c66e815cb9', 'zh_title': 'Electrochemical property of methylene blue redox dye immobilized on porous silica�Czirconia�Cantimonia mixed oxide', 'authors': 'Galina Zaitseva;Yoshitaka Gushikem;Emerson S. Ribeiro;Simone S. 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Malinauskas;G. Niaura;S. Bloxham;T. Ruzgas;L. Gorton', 'journal': 'Journal of colloid and interface science', 'year': '2000'};{'id': 'j_e5fc68f63b6dc1eda84be70cd5822eb6', 'zh_title': 'Effect of pH on the catalytic electrooxidation of NADH using different two-electron mediators immobilised on zirconium phosphate', 'authors': 'Florentina D. Munteanu;Lauro T. Kubota;Lo Gorton', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2001'};{'id': 'j_06d5cab035bc891ac90f3a9b1d034752', 'zh_title': 'Photoelectrochemical investigation of methylene blue immobilised on zirconium phosphate modified carbon paste electrode in flow injection system', 'authors': 'Yusuf Dilgin;Zekerya Dursun;Gurel Nisli;Lo Gorton', 'journal': 'Analytica Chimica Acta', 'year': '2005'};{'id': 'j_3b01d1e9ee3cceb2ffa17a7071234f90', 'zh_title': 'Active cellular sensing with quantum dots: Transitioning from research tool to reality; a review', 'authors': 'James B. Delehanty;Kimihiro Susumu;Rachel L. Manthe;W. Russ Algar;Igor L. Medintz', 'journal': 'Analytica chimica acta', 'year': '2012'};{'id': 'j_7ca84d0b1e440d9e8fb230faf4f0d431', 'zh_title': 'Amperometric determination of NADH at a Nile blue/ordered mesoporous carbon composite electrode', 'authors': 'Liande Zhu;Ruilan Yang;Xiaoyan Jiang;Dongxu Yang', 'journal': 'Electrochemistry Communications', 'year': '2009'};{'id': 'j_0bb2474aa260a2db905d25907f0172db', 'zh_title': 'Spectrally Matched Upconverting Luminescent Nanoparticles for Monitoring Enzymatic Reactions', 'authors': 'Stefan Wilhelm;Melisa del Barrio;Josef Heiland;Sandy F. Himmelsto?;Javier Galb��n;Otto S. Wolfbeis;Thomas Hirsch', 'journal': 'ACS Applied Materials & Interfaces', 'year': '2014'};{'id': 'j_76c5564ef97fbaddfbc051e06a4eafe7', 'zh_title': 'Methylated Azopyridine as a New Electron Transfer Mediator for the Electrocatalytic Oxidation of NADH', 'authors': 'Afsaneh Safavi;Omran Moradlou;Mostafa Saadatifar', 'journal': 'Electroanalysis', 'year': '2010'};{'id': 'j_d7aed28b576ce29b3f3eec51aac82a7b', 'zh_title': 'Encyclopedia of Electrochemistry (Online) || Electrochemistry of NAD(P)              +              /NAD(P)H', 'authors': 'Bard, Allen J.', 'year': '2007'};{'id': 'j_a2701e17505bef13c24d0c72ca8810ad', 'zh_title': 'Energy Transfer with Semiconductor Quantum Dot Bioconjugates: A Versatile Platform for Biosensing, Energy Harvesting, and Other Developing Applications', 'authors': 'Niko Hildebrandt;Christopher M. Spillmann;W. Russ Algar;Thomas Pons;Michael H. Stewart;Eunkeu Oh;Kimihiro Susumu;Sebastian A. D��az;James B. Delehanty;Igor L. Medintz', 'journal': 'Chemical Reviews', 'year': '2016'};{'id': 'j_c7aa681536ec82b472be55d039a22778', 'zh_title': ""Mediated amperometric biosensors for lactic acid based on carbon paste electrodes modified with baker's yeast Saccharomyces cerevisiae"", 'authors': 'R. Garjonyte;V. Melvydas;A. Malinauskas', 'journal': 'Bioelectrochemistry', 'year': '2006'};{'id': 'j_1e0d837a29fa62713bcdfe4527b03f40', 'zh_title': 'Biosensing and Probing of Intracellular Metabolic Pathways by NADH-Sensitive Quantum Dots', 'authors': 'Ronit Freeman;Ron Gill;Itzhak Shweky;Moshe Kotler;Uri Banin;Itamar Willner', 'journal': 'Angewandte Chemie', 'year': '2009'};{'id': 'j_ec91bf460d9bb384705e245798483d19', 'zh_title': 'Development of an Alcohol Dehydrogenase Biosensor for Ethanol Determination with Toluidine Blue O Covalently Attached to a Cellulose Acetate Modified Electrode', 'authors': '?enol Alpat;Azmi Telefoncu', 'journal': 'Sensors', 'year': '2010'};{'id': 'j_610324c2eeaf60d72b359d2d6ff3f7a0', 'zh_title': 'Electrocatalytic oxidation of NAD(P)H at mediator-modified electrodes', 'authors': 'L Gorton', 'journal': 'Journal of biotechnology', 'year': '2002'};{'id': 'j_c054dc207a1a6723ca1b3763b483bb21', 'zh_title': 'Carbon ceramic electrodes modified with sub-micron particles of new methylene blue (NMB) intercalated ��-zirconium phosphate', 'authors': 'Peng Wang;Yi Yuan;Guoyi Zhu', 'journal': 'JOURNAL OF ELECTROANALYTICAL CHEMISTRY', 'year': '2002'}","{'id': 'j_8d0490135a5e193684475b3d59ed2533', 'zh_title': 'Electrochemical oxidation in aqueous and nonaqueous media of dihydropyridine nucleotides NMNH, NADH, and NADPH', 'authors': 'Robert D. Braun;K. S. V. Santhanam;Philip J. Elving', 'journal': 'Journal of the American Chemical Society', 'year': '1975'};{'id': 'j_221ada34fd997cf8d4539e591d78c13b', 'zh_title': 'Reactions between diaphorase and quinone compounds in bioelectrocatalytic redox reactions of NADH and NAD+', 'authors': 'Yasuhiro Ogino;Kazuyoshi Takagi;Kenji Kano;Tokuji Ikeda', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1995'};{'id': 'j_7c4653102944b017034a73eb2c2b159d', 'zh_title': 'A dimer of diphosphopyridine nucleotide', 'authors': 'Robert W. Burnett;A. L. Underwood', 'journal': 'Biochemistry', 'year': '1968'};{'id': 'j_a8e9875cc50778c0cedbcd0b969c6515', 'zh_title': 'Sensors based on carbon paste in electrochemical analysis: A review with particular emphasis on the period 1990-1993', 'authors': 'K. Kalcher;J.-M. Kauffmann;J. Wang;I. ?vancara;K. Vyt?as;C. Neuhold;Z. Yang', 'journal': 'Electroanalysis', 'year': '1995'};{'id': 'j_a13d1ada0051196972eb8b2aafaf19b7', 'zh_title': 'The acceptor specificity of flavins and flavoproteins. III. Flavoproteins', 'authors': 'Malcolm Dixon', 'journal': 'Biochimica et biophysica acta', 'year': '1971'};{'id': 'j_adc55824c62502eb5027b4053a95ab12', 'zh_title': 'Adsorption phenomena in the NAD+/NADH system at glassy carbon electrodes', 'authors': 'Jacques Moiroux;Philip J. Elving', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1979'};{'id': 'j_6d68792f5fa76be86efb1deef00e64b7', 'zh_title': 'Chemically modified carbon paste electrodes', 'authors': 'K. Ravichandran;R.P. Baldwin', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1981'};{'id': 'j_8b219255e21e30239d1342d724aa55db', 'zh_title': 'Liquid chromatographic determination of hydrazines with electrochemically pretreated glassy carbon electrodes', 'authors': 'K. Ravichandran;Richard P. Baldwin', 'journal': 'Analytical Chemistry', 'year': '1983'};{'id': 'j_6bdc99e8c04400d03bd661ced5b4c611', 'zh_title': 'Nicotinamide-NAD Sequence: Redox Processes and Related Behavior: Behavior and Properties of Intermediate and Final Products', 'authors': 'Philip J. Elving;Conrad O. Schmakel;K. S. V. Santhanam;P. Zuman', 'journal': 'Critical Reviews in Analytical Chemistry', 'year': '1976'};{'id': 'j_6928f6f0680ee378ae93f105c7bc15ac', 'zh_title': 'Electrocatalysis of dihydronicotinamide adenosine diphosphate with quinones and modified quinone electrodes', 'authors': 'Daniel Chi-Sing. Tse;Theodore. Kuwana', 'journal': 'Analytical Chemistry', 'year': '1978'};{'id': 'j_f603ff137eb5a443e970f620fa7f29bf', 'zh_title': 'Electrochemical oxidation of reduced nicotinamide adenine dinucleotide', 'authors': 'W. J. Blaedel;Roger A. Jenkins', 'journal': 'Analytical Chemistry', 'year': '1975'};{'id': 'j_2dd66d2b349ac242bceb6d318bf1c5a5', 'zh_title': 'A kinetic study of the reaction between dihydronicotinamide adenine dinucleotide (NADH) and an electrode modified by adsorption of 1,2-benzophenoxazine-7-one', 'authors': 'Lo Gorton;Gillis Johansson;Arne Torstensson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1985'};{'id': 'j_de3599aa9071ecae95e25b459015757c', 'zh_title': 'Chemically modified electrodes for the electrocatalytic oxidation of nicotinamide coenzymes', 'authors': 'Lo Gorton', 'journal': 'Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry in Condensed Phases', 'year': '1986'};{'id': 'j_98251a435e8563121aacbf47d2633743', 'zh_title': 'Stability of catechol modified carbon electrodes for electrocatalysis of dihydronicotinamide adenine dinucleotide and ascorbic acid', 'authors': 'Chihiro. Ueda;Daniel Chi-Sing. Tse;Theodore. Kuwana', 'journal': 'Analytical Chemistry', 'year': '1982'};{'id': 'j_c73c94d82450be02aaea13da4922b8a5', 'zh_title': 'Adsorption and electrochemical oxidation behaviour of NADH at a clean platinum electrode', 'authors': 'Hans Jaegfeldt', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1980'};{'id': 'j_450144afca179a927e854d0bac25827e', 'zh_title': 'A study of the products formed in the electrochemical reduction of nicotinamide-adenine-dinucleotide', 'authors': 'Hans Jaegfeldt', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1981'};{'id': 'j_5eea22218ef83ac294358ec327004410', 'zh_title': 'Mediator-modified electrodes for electrocatalytic oxidation of NADH', 'authors': 'Bernd Gr��ndig;Gunther Wittstock;Ulrich R��del;Beate Strehlitz', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1995'};{'id': 'j_03af7b0dca72f553d6f4a1a0fb4a82c5', 'zh_title': 'Catalytic oxidation of reduced nicotinamide adenine dinucleotide by graphite electrodes modified with adsorbed aromatics containing catechol functionalities', 'authors': 'Hans. Jaegfeldt;Arne B. C. Torstensson;Lo G. O. Gorton;Gillis. Johansson', 'journal': 'Analytical Chemistry', 'year': '1981'};{'id': 'j_7b94335223cdd8a6a17a0e0239196030', 'zh_title': 'Chemical Cross-Linking of a Redox Mediator Thionin for Electrocatalytic Oxidation of Reduced ��-Nicotinamide Adenine Dinucleotide', 'authors': 'Kiamars Hajizadeh;Hua T. Tang;H. Brian Halsall;William R. Heineman', 'journal': 'Analytical Letters', 'year': '1991'};{'id': 'j_c663211f6424d83cd7a4ae8a18aa2de9', 'zh_title': 'Phenylenediamine-containing chemically modified carbon paste electrodes as catalytic voltammetric sensors', 'authors': 'K. Ravichandran;Richard P. Baldwin', 'journal': 'Analytical Chemistry', 'year': '1983'};{'id': 'j_af8415e9585faa6fef106c14017268a7', 'zh_title': 'Amperometric biosensors based on NAD(P)-dependent dehydrogenase enzymes', 'authors': 'Maria Jes��s Lobo;Arturo J. Miranda;Paulino Tu?��n', 'journal': 'Electroanalysis', 'year': '1997'};{'id': 'j_08cbfc3aed473be4d571e1bffab835f9', 'zh_title': 'A comparison of electrocatalytic ability of various mediators adsorbed onto paraffin impregnated graphite electrodes for oxidation of reduced nicotinamide coenzymes', 'authors': 'Chi Qi-Jin;Dong Shao-Jun', 'journal': 'Journal of Molecular Catalysis A-chemical', 'year': '1996'};{'id': 'j_fd1a5eaf21cc8b1a7dd367fb5c671d3f', 'zh_title': 'Electrocatalytic oxidation of reduced nicotinamide coenzymes by graphite electrodes modified with an adsorbed phenoxazinium salt, meldola blue', 'authors': 'Lo Gorton;Arne Torstensson;Hans Jaegfeldt;Gillis Johansson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1984'};{'id': 'j_a953a19fe266fcd48c3e5e3cefbe5381', 'zh_title': 'A comparative study of some 3,7-diaminophenoxazine derivatives and related compounds for electrocatalytic oxidation of NADH', 'authors': 'Bj?rn Persson;Lo Gorton', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1990'};{'id': 'j_82bd1284d9eb06d1f793b73234d0c39e', 'zh_title': 'Effects of adsorption, electrode material, and operational variables on the oxidation of dihydronicotinamide adenine dinucleotide at carbon electrodes', 'authors': 'Jacques. Moiroux;Philip J. Elving', 'journal': 'Analytical Chemistry', 'year': '1978'};{'id': 'j_94fbf29e0e59ef6e9118fb4946f1dcf7', 'zh_title': 'Catalytic oxidation of NADH by surface-modified graphite electrodes', 'authors': 'Arne Torstensson;Lo Gorton', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1981'};{'id': 'j_47225645e5dfe07fb0a4c6bd0f8ad6ea', 'zh_title': 'Electrocatalytic detection of nicotinamide coenzymes by poly(o-aminophenol)- and poly(o-phenylenediamine)-modified carbon paste electrodes', 'authors': 'M.J. Lobo;A.J. Miranda;J.M. L��pez-Fonseca;P. Tu?��n', 'journal': 'Analytica Chimica Acta', 'year': '1996'};{'id': 'j_91efc0698c61ae9fae7dca9640a309a8', 'zh_title': 'A chemically modified graphite electrode for electrocatalytic oxidation of reduced nicotinamide adenine dinucleotide based on a phenothiazine derivative, 3-��-naphthoyl-toluidine blue O', 'authors': 'Bj?rn Persson', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1990'};{'id': 'j_07018c251fe11d8d0f8b3148f6ccf6b9', 'zh_title': 'Carbon paste electrodes modified with enzymes, tissues, and cells', 'authors': 'L. Gorton', 'journal': 'Electroanalysis', 'year': '1995'};{'id': 'j_ef5f000e74e38eef6b833e13f1ae1493', 'zh_title': 'Electrocatalytic oxidation of NADH by ferrocene derivatives and the influence of cyclodextrin complexation', 'authors': 'Tomokazu Matsue;Masayuki Suda;Isamu Uchida;Tetsuya Kato;Uichi Akiba;Tetsuo Osa', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1987'};{'id': 'j_f8ebc41b52952d1ad3a2e8f424abd54b', 'zh_title': 'A Reagentless Biosensor for the Amperometric Determination of NADH', 'authors': 'Serge Cosnier;Jean-Luc D��cout;Marc Fontecave;Christelle Frier;Christophe Innocent', 'journal': 'Electroanalysis', 'year': '1998'};{'id': 'j_d99fbcef1cdde19e39ecc5f7749ff7a8', 'zh_title': 'Steady-state voltammetry at glassy carbon electrodes', 'authors': 'W. J. Blaedel;Roger A. Jenkins', 'journal': 'Analytical Chemistry', 'year': '1974'};{'id': 'j_8520c82ee3a3b17e945185532587027e', 'zh_title': 'Catalytic electrooxidation of NADH for dehydrogenase amperometric biosensors', 'authors': 'Ioanis Katakis;Elena Dom?nguez', 'journal': 'Microchimica Acta', 'year': '1997'};{'id': 'j_b73fc73b4474cef1a44b477e728b9ec9', 'zh_title': 'Electrocatalysis of NADH Oxidation with Electropolymerized Films of 3,4-Dihydroxybenzaldehyde', 'authors': 'F. Pariente;E. Lorenzo;H. D. Abruna', 'journal': 'Analytical Chemistry', 'year': '1994'};{'id': 'j_fcdda622394cbf61f282ea84c7f8100f', 'zh_title': 'Intercalation of Methylene Blue into Layered Phosphates in the Presence of Butylamine and Function of Alkylamine in the Intercalation Reaction', 'authors': 'Mayumi Danjo;Mitsutomo Tsuhako;Hirokazu Nakayama;Taro Eguchi;Nobuo Nakamura;Shunro Yamaguchi;Hiroyuki Nariai;Itaru Motooka', 'journal': 'Bulletin of the Chemical Society of Japan', 'year': '1997'};{'id': 'j_47ba65649753611779d4ccfd00040e24', 'zh_title': 'Electrochemical oxidation of reduced nicotinamide adenine dinucleotide directly and after reduction in an enzyme reactor', 'authors': 'Hans Jaegfeldt;Arne Torstensson;Gillis Johansson', 'journal': 'Analytica Chimica Acta', 'year': '1978'};{'id': 'j_8eca673018ab3f83a7c9c870d3ac88b2', 'zh_title': 'An original electroenzymatic system: Flavin reductase-riboflavin for the improvement of dehydrogenase-based biosensors. Application to the amperometric detection of lactate', 'authors': 'Serge Cosnier;Marc Fontecave;Christophe Innocent;Vincent Niviere', 'journal': 'Electroanalysis', 'year': '1997'};{'id': 'j_f516127f8606c9b7cc6bb81c917b6e14', 'zh_title': 'Nicotinamide-Nad Sequence: Redox Processes and Related Behavior: Behavior and Properties of Intermediate and Final Products', 'authors': 'Philip J. Elving;Conrad O. Schmakel;K. S. V. Santhanam;P. Zuman', 'journal': 'C R C Critical Reviews in Analytical Chemistry', 'year': '1976'};{'id': 'j_f988a47c816bea7dcd0d2f573f2d7385', 'zh_title': 'Role of ion exchange in solid-state chemistry', 'authors': 'Abraham Clearfield', 'journal': 'Chemical Reviews', 'year': '1988'};{'id': 'j_4fd1ca1332f84bf3cad899948fbe6bea', 'zh_title': 'Preliminary electrochemical study of phenothiazines and phenoxazines immobilized on zirconium phosphate', 'authors': 'Christiana A. Pessoa;Yoshitaka Gushikem;Lauro T. Kubota;Lo Gorton', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '1997'};{'id': 'j_417032bf853b87b39844b2ef99352d7b', 'zh_title': 'Preparation and electrical behaviour of photoluminiscent intercalation compounds of thionine in layered phosphates', 'authors': 'E Rodr??guez-Castell��n;A Jim��nez-L��pez;P Olivera-Pastor;J.M M��rida-Robles;F.J P��rez-Reina;M Alc��ntara-Rodr??guez;F Souto-Bachiller;L Rodr??guez-Rodr??guez;M Fortes;J.R Ramos-Barrado', 'journal': 'Solid State Ionics', 'year': '1997'}","{'person_id': 'f09350dda015fee5e58bf0938a530e98', 'orcid': 'https://orcid.org/0000-0001-8189-2618', 'name': 'Lauro T. Kubota', 'email': '', 'org_name': 'State University of Campinas', 'org_id': '83e5b0ca8fbe4bc2fbd3263e1293b281', 'author_num': 4, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '79b8b88f561e3ffcb8810215ceac9a66', 'orcid': 'https://orcid.org/0000-0003-0304-7528', 'name': 'Tautgirdas Ruzgas', 'email': '', 'org_name': 'Lund University', 'org_id': '9610ebacd939336a70c2c5e6206cd105', 'author_num': 2, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': '81b7303d211e090a026936b4ede00882', 'orcid': ' ', 'name': 'Albertas Malinauskas', 'email': '', 'org_name': 'Institute of Chemistry', 'org_id': 'c80fb3fc7b5a04062888337c5cc00495', 'author_num': 1, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '};{'person_id': 'ac148c8f0f16820788985a6f74a5112b', 'orcid': 'https://orcid.org/0000-0002-7278-0478', 'name': 'Lo Gorton', 'email': '', 'org_name': 'Lund University', 'org_id': '9610ebacd939336a70c2c5e6206cd105', 'author_num': 3, 'nationality': ' ', 'country': ' ', 'province': ' ', 'city': ' '}"
+j_67a8dba5bb9843ac7659008cec6c7cf9,10.1002/(sici)1521-4109(200002)12:3<209::aid-elan209>3.0.co;2-i,Electroless Preparation and Electrochemistry of Nickel-Pentacyanonitrosylferrate Film Modified Aluminum Electrode,2000,M. H. Pournaghi-Azar;H. Razmi-Nerbin,M. H. Pournaghi-Azar,TRUE,2000/2/1,12,3,209,215,1040-0397;1521-4109,"The use of aluminum substrate as an electrode and the modification of its surface by means of the thin film of nickel pentacyanonitrosylferrate (NiPCNF) was developed. The modification conditions of aluminum surface including the electroless deposition of metallic nickel on the electrode surface from NiCl2+NH4Cl solution and chemical derivatization of deposited nickel to NiPCNF film in solution of 10?mM sodium pentacyanonitrosylferrate (PCNF)+0.5?M NaNO3+0.03?M HNO3 are described. The modified Al electrode prepared under optimum conditions, shows a well-defined redox couple due to NiIIFeIII/II(CN)5NO]0/�C1 system. The effect of pH and radius of the hydrated alkali-metal cation of supporting electrolyte on the electrochemical characteristics of the modified electrode were studied in detail. Diffusion coefficients of alkali-metal cations in the film (D),transfer rate constant for electron (ks) and transfer coefficient (��) were calculated. The electrocatalytic activity of the modified electrode on the oxidation of hydrogen peroxide and ascorbic acid was demonstrated as a typical example of applications.",Materials Science,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,40,26,FALSE,,closed,�绯ѧ;��ѧ������,"{'org_name': '����ʿ��W', 'org_id': '4129dec95996f32f15513f873ea3c479'}","{'id': 'j_a87ce3a79632f6e8885eb77d4abd214f', 'zh_title': 'Electrocatalytic oxidation of nitrite at an aluminum electrode modified by a chemically deposited palladium pentacyanonitrosylferrate film', 'authors': 'M.H Pournaghi-Azar;H Dastangoo', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2004'};{'id': 'j_874b7b3e74a36472593121f7e3268385', 'zh_title': 'A novel bimediator amperometric sensor for electrocatalytic oxidation of gallic acid and reduction of hydrogen peroxide', 'authors': 'N.S. 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Razmi;M. Agazadeh;B. Habibi-A', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2003'};{'id': 'j_8faa12783d31983fc1f224ba409e1e02', 'zh_title': 'Nanostructuring metal-carbon composites for electrochemical biosensors', 'authors': 'Siong Luong Ting', 'year': '2015'};{'id': 'j_8344ff3449fbddf8d2f6f8794c73145b', 'zh_title': 'Electrocatalytic characteristics of ascorbic acid oxidation at nickel plated aluminum electrodes modified with nickel pentacyanonitrosylferrate films', 'authors': 'M.H Pournaghi-Azar;H Razmi-Nerbin', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2000'};{'id': 'j_c4be5e22c07ca81cfb279572a6a7ffce', 'zh_title': 'Assessment of gas production and electrochemical factors for fracturing flow-back fluid treatment in Guangyuan oilfield', 'authors': 'Yang Liu;Wu Chen;Shanhui Zhang;Dongpo Shi;Mijia Zhu', 'journal': 'Environmental Engineering Research', 'year': '2018'};{'id': 'j_34b2c9196b5f3e83898f587ed4a07fa9', 'zh_title': 'Electrochemical Studies on a Zirconium Hexacyanoferrate Modified Electrode and Utility for the Determination of Rubidium', 'authors': 'Shou-Qing Liu;Yun Chen;Hong-Yuan Chen', 'journal': 'ELECTROANALYSIS', 'year': '2002'};{'id': 'j_b3e105d2983a6f059f8ac91f621fc899', 'zh_title': 'Preparation of a platinum layer-modified aluminum electrode by electrochemical and electroless cementations and its use for the electrooxidation of methanol', 'authors': 'M.H. Pournaghi-Azar;Biuck Habibi-A', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2005'};{'id': 'j_32561c945f276c64122c85941d3943e9', 'zh_title': 'Electrochemical characteristics of a cobalt pentacyanonitrosylferrate film on a modified glassy carbon electrode and its catalytic effect on the electrooxidation of hydrazine', 'authors': 'M.H Pournaghi-Azar;R Sabzi', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2003'};{'id': 'j_600c0bcf37012c263458b963c4594ea1', 'zh_title': 'Surfactant-promoted Prussian Blue-modified carbon electrodes: Enhancement of electro-deposition step, stabilization, electrochemical properties and application to lactate microbiosensors for the neurosciences', 'authors': 'P. Salazar;M. Mart��n;R.D. O��Neill;R. Roche;J.L. Gonz��lez-Mora', 'journal': 'Colloids and surfaces. B, Biointerfaces', 'year': '2012'};{'id': 'j_a6a4b2496dd9f3671ddaec6d22ac59e9', 'zh_title': 'Electrochemical behavior of a novel palladium pentacyanonitrosylferrate modified aluminum electrode', 'authors': 'M.H Pournaghi-Azar;H Dastangoo', 'journal': 'Electrochimica Acta', 'year': '2003'};{'id': 'j_a4034c7ad6808d80decae2d8dfda6678', 'zh_title': 'Voltammetric Behavior and Electrochemical Determination of Ascorbic Acid at Ferrous Pentacyanonitrosylferrate Film Modified Carbon Paste Electrode', 'authors': 'Suqin Liu;Gaopeng Dai;Yanping Zhao;Xunguang Hu', 'journal': 'ANALYTICAL LETTERS', 'year': '2009'};{'id': 'j_7947ab004381c71f4102ec6265587583', 'zh_title': 'Wide dynamic range and ultrasensitive detection of hydrogen peroxide based on beneficial role of gold nanoparticles on the electrochemical properties of prussian blue', 'authors': 'Amir Homayoun Keihan;Razieh Ramezani Karimi;Sharareh Sajjadi', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2020'};{'id': 'j_375ec7e04420c6a763068b7fd509c8e2', 'zh_title': 'Electrochemical preparation of a novel, effective and low cast catalytic surface for hydrogen evolution reaction', 'authors': 'B HABIBI;M POURNAGHIAZAR;H RAZMI;H ABDOLMOHAMMADZADEH', 'journal': 'International Journal of Hydrogen Energy', 'year': '2008'};{'id': 'j_73778e8d49ab32b655d71667f13ceca5', 'zh_title': 'Enhanced selectivity and stability of ruthenium purple-modified carbon fiber microelectrodes for detection of hydrogen peroxide in brain tissue', 'authors': 'Ana Ledo;Eliana Fernandes;Christopher M.A. Brett;Rui M. 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Heidari', 'journal': 'Electrochimica Acta', 'year': '2005'};{'id': 'j_f805ad79e364f07a3bf04a9d8bed61c9', 'zh_title': 'Electrocatalytic Oxidation of Sulfite on a Nickel Aquapentacyanoferrate Modified Electrode: Application for Simple and Selective Determination', 'authors': 'S.\u2005Senthil Kumar;S.\u2005Sriman Narayanan', 'journal': 'Electroanalysis', 'year': '2008'};{'id': 'j_0635118515f929d2857c74ed723fb592', 'zh_title': 'Electrochemical characteristics of dopamine oxidation at palladium hexacyanoferrate film, electroless plated on aluminum electrode', 'authors': 'H. Razmi;A. Azadbakht', 'journal': 'Electrochimica Acta', 'year': '2005'};{'id': 'j_2ed5cffb683564cd82dcba397ca19e75', 'zh_title': 'Voltammetric and amperometric determination of sulfite using an aluminum electrode modified by nickel pentacyanonitrosylferrate film', 'authors': 'M.H Pournaghi-Azar;M Hydarpour;H Dastangoo', 'journal': 'Analytica Chimica Acta', 'year': '2003'};{'id': 'j_eb2857b0ffbab7dcd67aca43a67f9da4', 'zh_title': 'Characterization and electrocatalytic properties of cobalt hexacyanoferrate films immobilized on Au-colloid modified gold electrodes', 'authors': 'Wenyan Tao;Dawei Pan;Yingju Liu;Lihua Nie;Shouzhuo Yao', 'journal': 'JOURNAL OF ELECTROANALYTICAL CHEMISTRY', 'year': '2004'};{'id': 'j_316d0ec74402fac7fc41fa2fbc68bcd9', 'zh_title': 'Electrochemical characteristics of an aluminum electrode modified by a palladium hexacyanoferrate film, synthesized by a simple electroless procedure', 'authors': 'M.H Pournaghi-Azar;H Dastangoo', 'journal': 'Journal of Electroanalytical Chemistry', 'year': '2002'};{'id': 'j_52e192950c99654eb08bec20b046fd33', 'zh_title': 'Catalytic Oxidation of Dopamine at a Copper Hexacyanoferrate Surface Modified GNP Graphite Wax Composite Electrode', 'authors': 'G.  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+j_dd641a33588661a5ef375ffccabc7d59,10.1002/(sici)1521-4109(200002)12:3<227::aid-elan227>3.0.co;2-i,Determination of Zinc Pyrithione in Hair Care Products on Metal Oxides Modified Carbon Electrodes,2000,Lai-Hao Wang,Lai-Hao Wang,TRUE,2000/2/1,12,3,227,232,1040-0397;1521-4109,"A simple electroanalytical method for the determination of zinc pyrithione (ZPT) in commercial cosmetic products has been developed using a metal oxide modified carbon paste electrode. Ingredients in the cosmetic products did not show any interference in the determination of zinc pyrithione. The electrocatalytic behavior in relation to the properties of metal oxides and the mechanism of the oxidation process was investigated using cyclic voltammetry, linear sweep voltammetry, chronoamperometry. and differential pulse voltammetry. Comparison with results obtained from high performance liquid chromatography shows good agreement.",Chemistry,Electroanalysis,Crossref;corpus;unpaywall;openalex;scimag,10,26,FALSE,,closed,��ѧ������;�绯ѧ,"{'org_name': 'Department of Applied Chemistry, China Nan College of Pharmacy and Science, Tainan, Taiwan 71710, R.O.C.', 'org_id': '0dfbbae5b2869cc2453a4baf406ffa8b'}","{'id': 'j_d456ea0b89e7dad1f73ba4d2fb43c528', 'zh_title': 'Electrochemical Detector for Liquid Chromatography: Determining Minoxidil in Hair-Growth Pharmaceuticals', 'authors': 'Lai-Hao Wang;Pei-Tung Cheng', 'journal': 'Current Analytical Chemistry', 'year': '2019'};{'id': 'j_65f3c19ee4a9fefbd290adcb234e845c', 'zh_title': 'Carbon Paste Electrodes in Facts, Numbers, and Notes: A Review on the Occasion of the 50-Years Jubilee of Carbon Paste in Electrochemistry and Electroanalysis', 'authors': 'Ivan S?vancara;Karel Vytr?as;Kurt Kalcher;Alain Walcarius;Joseph Wang', 'journal': 'Electroanalysis', 'year': '2009'};{'id': 'j_dee722fca26c3dd51105e4dfb3ce444c', 'zh_title': 'Flow injection analysis of zinc pyrithione in hair care products on a cobalt phthalocyanine modified screen-printed carbon electrode', 'authors': 'Y SHIH', 'journal': 'Talanta', 'year': '2004'};{'id': 'j_21420be61724fe631006a06274b2ba4e', 'zh_title': 'Improved method for the determination of zinc pyrithione in environmental water samples incorporating on-line extraction and preconcentration coupled with liquid chromatography atmospheric pressure chemical ionisation mass spectrometry', 'authors': 'Jonathan Bones;Kevin V. 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