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crossref
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article
10.1021
nature
<citation-number>94.</citation-number> <author>Zhang, R., Gong, H.-Q., Zeng, X., Lou, C. & Sze, C.</author> <title>A Microfluidic Liquid Phase Nucleic Acid Purification Chip to Selectively Isolate DNA or RNA from Low Copy/Single Bacterial Cells in Minute Sample Volume Followed by Direct On-Chip Quantitative PCR Assay.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1484–1491</page> <year>(2013).</year>
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10.1021
nature
<citation-number>95.</citation-number> <author>Yang, H., Wan, D., Song, F., Liu, Z. & Liu, S.</author> <title>Argon Direct Analysis in Real Time Mass Spectrometry in Conjunction with Makeup Solvents: A Method for Analysis of Labile Compounds.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1305–1309</page> <year>(2013).</year>
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10.1021
nature
<citation-number>96.</citation-number> <author>Reddy, J. G. & Hosur, R. V.</author> <title>Reduced Dimensionality (4,3)D-HN(C)NH for Rapid Assignment of 1HN–15N HSQC Peaks in Proteins: An Analytical Tool for Protein Folding, Proteomics, and Drug Discovery Programs.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>10404–10410</page> <year>(2012).</year>
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10.1021
nature
<citation-number>1.</citation-number> <author>Zhao, W.-W., Ma, Z.-Y., Yan, D.-Y., Xu, J.-J. & Chen, H.-Y.</author> <title>In Situ Enzymatic Ascorbic Acid Production as Electron Donor for CdS Quantum Dots Equipped TiO2 Nanotubes: A General and Efficient Approach for New Photoelectrochemical Immunoassay.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>10518–10521</page> <year>(2012).</year>
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10.1021
nature
<citation-number>2.</citation-number> <author>Kim, S. et al.</author> <title>Evaluation and Optimization of Metabolome Sample Preparation Methods for Saccharomyces cerevisiae.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>2169–2176</page> <year>(2013).</year>
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10.1021
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<citation-number>3.</citation-number> <author>Gao, Z., Deng, H., Shen, W. & Ren, Y.</author> <title>A Label-Free Biosensor for Electrochemical Detection of Femtomolar MicroRNAs.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1624–1630</page> <year>(2013).</year>
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10.1021
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<citation-number>4.</citation-number> <author>Gillig, K. J. & Chen, C.-H.</author> <title>Critical Examination of Gas-Phase Protein Conformation/Multimer Ion Formation by Electrospray Ion Mobility-Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>2177–2182</page> <year>(2013).</year>
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10.1021
nature
<citation-number>5.</citation-number> <author>Akanda, Md. R. et al.</author> <title>Hydroquinone Diphosphate as a Phosphatase Substrate in Enzymatic Amplification Combined with Electrochemical–Chemical–Chemical Redox Cycling for the Detection of E. coli O157:H7.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1631–1636</page> <year>(2013).</year>
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10.1021
nature
<citation-number>6.</citation-number> <author>Adamo, A., Arione, A., Sharei, A. & Jensen, K. F.</author> <title>Flow-Through Comb Electroporation Device for Delivery of Macromolecules.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1637–1641</page> <year>(2013).</year>
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10.1021
nature
<citation-number>7.</citation-number> <author>Mawatari, K. et al.</author> <title>Femtoliter Droplet Handling in Nanofluidic Channels: A Laplace Nanovalve.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>10812–10816</page> <year>(2012).</year>
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10.1021
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<citation-number>8.</citation-number> <author>Chang, Y.-C. & Imasaka, T.</author> <title>Simple Pretreatment Procedure Combined with Gas Chromatography/Multiphoton Ionization/Mass Spectrometry for the Analysis of Dioxins in Soil Samples Obtained after the To̅hoku Earthquake.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>349–354</page> <year>(2012).</year>
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10.1021
nature
<citation-number>9.</citation-number> <author>Nowicka, A. M., Kowalczyk, A., Sek, S. & Stojek, Z.</author> <title>Oxidation of DNA Followed by Conformational Change after OH Radical Attack.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>355–361</page> <year>(2012).</year>
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10.1021
nature
<citation-number>10.</citation-number> <author>Wyttenbach, T., Bleiholder, C. & Bowers, M. T.</author> <title>Factors Contributing to the Collision Cross Section of Polyatomic Ions in the Kilodalton to Gigadalton Range: Application to Ion Mobility Measurements.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>2191–2199</page> <year>(2013).</year>
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en
article
10.1021
nature
<citation-number>11.</citation-number> <author>Labib, M. et al.</author> <title>Aptamer-Based Viability Impedimetric Sensor for Bacteria.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>8966–8969</page> <year>(2012).</year>
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10.1021
nature
<citation-number>12.</citation-number> <author>Zhang, R.-Q. et al.</author> <title>A Simple Point-of-Care Microfluidic Immunomagnetic Fluorescence Assay for Pathogens.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>2645–2651</page> <year>(2013).</year>
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en
article
10.1021
nature
<citation-number>13.</citation-number> <author>Kim, J., Kim, E.-G., Bae, S., Kwon, S. & Chun, H.</author> <title>Potentiometric Multichannel Cytometer Microchip for High-throughput Microdispersion Analysis.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>362–368</page> <year>(2012).</year>
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article
10.1021
nature
<citation-number>14.</citation-number> <author>Li, H. et al.</author> <title>A General Way to Assay Protein by Coupling Peptide with Signal Reporter via Supermolecule Formation.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1047–1052</page> <year>(2012).</year>
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10.1021
nature
<citation-number>15.</citation-number> <author>Frolov, L. et al.</author> <title>Direct Observation of Aminoglycoside–RNA Binding by Localized Surface Plasmon Resonance Spectroscopy.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>2200–2207</page> <year>(2013).</year>
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10.1021
nature
<citation-number>16.</citation-number> <author>Sinues, P. M.-L., Kohler, M. & Zenobi, R.</author> <title>Monitoring Diurnal Changes in Exhaled Human Breath.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>369–373</page> <year>(2012).</year>
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article
10.1021
nature
<citation-number>17.</citation-number> <author>Li, M., Huang, W. E., Gibson, C. M., Fowler, P. W. & Jousset, A.</author> <title>Stable Isotope Probing and Raman Spectroscopy for Monitoring Carbon Flow in a Food Chain and Revealing Metabolic Pathway.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1642–1649</page> <year>(2013).</year>
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10.1021
nature
<citation-number>18.</citation-number> <author>Shvartsburg, A. A. & Smith, R. D.</author> <title>High-Resolution Differential Ion Mobility Spectrometry of a Protein.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>10–13</page> <year>(2012).</year>
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10.1021
nature
<citation-number>19.</citation-number> <author>Feldberg, S. W., Ojha, R. & Bond, A. M.</author> <title>Quantifying the Effects of Not Stirring between Repetitive Chronoamperometric Experiments.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>843–845</page> <year>(2012).</year>
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article
10.1021
nature
<citation-number>20.</citation-number> <author>Tulipani, S., Llorach, R., Urpi-Sarda, M. & Andres-Lacueva, C.</author> <title>Comparative Analysis of Sample Preparation Methods To Handle the Complexity of the Blood Fluid Metabolome: When Less Is More.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>341–348</page> <year>(2012).</year>
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10.1021
nature
<citation-number>21.</citation-number> <author>Osburn, S. & Ryzhov, V.</author> <title>Ion–Molecule Reactions: Analytical and Structural Tool.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>769–778</page> <year>(2012).</year>
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10.1021
nature
<citation-number>22.</citation-number> <author>Flores, E. M. M., Muller, E. I., Duarte, F. A., Grinberg, P. & Sturgeon, R. E.</author> <title>Determination of Trace Elements in Fluoropolymers after Microwave-Induced Combustion.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>374–380</page> <year>(2012).</year>
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10.1021
nature
<citation-number>23.</citation-number> <author>Zhu, Y., Chandra, P. & Shim, Y.-B.</author> <title>Ultrasensitive and Selective Electrochemical Diagnosis of Breast Cancer Based on a Hydrazine–Au Nanoparticle–Aptamer Bioconjugate.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1058–1064</page> <year>(2012).</year>
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10.1021
nature
<citation-number>24.</citation-number> <author>Burke, D. G. et al.</author> <title>Digital Polymerase Chain Reaction Measured pUC19 Marker as Calibrant for HPLC Measurement of DNA Quantity.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1657–1664</page> <year>(2013).</year>
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10.1021
nature
<citation-number>25.</citation-number> <author>Thakur, A., Mandal, D. & Ghosh, S.</author> <title>Sensitive and Selective Redox, Chromogenic, and “Turn-On” Fluorescent Probe for Pb(II) in Aqueous Environment.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1665–1674</page> <year>(2013).</year>
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en
article
10.1021
nature
<citation-number>26.</citation-number> <author>Olmsted, I. R., Kussrow, A. & Bornhop, D. J.</author> <title>Comparison of Free-Solution and Surface-Immobilized Molecular Interactions Using a Single Platform.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>10817–10822</page> <year>(2012).</year>
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10.1021
nature
<citation-number>27.</citation-number> <author>Cushing, K. W. et al.</author> <title>Elastomeric Negative Acoustic Contrast Particles for Affinity Capture Assays.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>2208–2215</page> <year>(2013).</year>
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10.1021
nature
<citation-number>28.</citation-number> <author>Imura, Y., Yoshimura, E. & Sato, K.</author> <title>Microcirculation System with a Dialysis Part for Bioassays Evaluating Anticancer Activity and Retention.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1683–1688</page> <year>(2013).</year>
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10.1021
nature
<citation-number>29.</citation-number> <author>Philipp, P., Ngo, Q. K., Shtein, M., Kieffer, J. & Wirtz, T.</author> <title>Ag-Organic Layered Samples for Optoelectronic Applications: Interface Width and Roughening Using a 500 {eV} Cs$\mathplus$ Probe in Dynamic Secondary Ion Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>381–388</page> <year>(2012).</year>
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10.1021
nature
<citation-number>30.</citation-number> <author>Wei, Y., Wong, L. P. & Toh, C.-S.</author> <title>Fuel Cell Virus Sensor Using Virus Capture within Antibody-Coated Nanochannels.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1350–1357</page> <year>(2013).</year>
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10.1021
nature
<citation-number>31.</citation-number> <author>Venkatanarayanan, A., Keyes, T. E. & Forster, R. J.</author> <title>Label-Free Impedance Detection of Cancer Cells.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>2216–2222</page> <year>(2013).</year>
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10.1021
nature
<citation-number>32.</citation-number> <author>Demoranville, L. T., Houssiau, L. & Gillen, G.</author> <title>Behavior and Evaluation of Tetraalkylammonium Bromides as Instrument Test Materials in Thermal Desorption Ion Mobility Spectrometers.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>2652–2658</page> <year>(2013).</year>
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10.1021
nature
<citation-number>33.</citation-number> <author>Chen, W., Wang, L., Huang, X. & Wang, M.</author> <title>Enhancing the Analytical Selectivity of Voltammetric Technique by the Combination of Harmonic Analysis and “Fingerprint” Phase Angle Lock-in Detection.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>83–90</page> <year>(2012).</year>
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10.1021
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<citation-number>34.</citation-number> <author>Barfidokht, A., Ciampi, S., Luais, E., Darwish, N. & Gooding, J. J.</author> <title>Distance-Dependent Electron Transfer at Passivated Electrodes Decorated by Gold Nanoparticles.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1073–1080</page> <year>(2012).</year>
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10.1021
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<citation-number>35.</citation-number> <author>Chen, J., Yin, S., Wu, Y. & Ouyang, J.</author> <title>Development of a Native Nanoelectrospray Mass Spectrometry Method for Determination of the Drug-to-Antibody Ratio of Antibody–Drug Conjugates.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1699–1704</page> <year>(2013).</year>
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10.1021
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<citation-number>36.</citation-number> <author>Pirman, D. A., Reich, R. F., Kiss, A., Heeren, R. M. A. & Yost, R. A.</author> <title>Quantitative MALDI Tandem Mass Spectrometric Imaging of Cocaine from Brain Tissue with a Deuterated Internal Standard.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1081–1089</page> <year>(2012).</year>
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10.1021
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<citation-number>37.</citation-number> <author>Nguyen, A. P. & Downard, K. M.</author> <title>Proteotyping of the Parainfluenza Virus with High-Resolution Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1097–1105</page> <year>(2013).</year>
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10.1021
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<citation-number>38.</citation-number> <author>Liao, D. et al.</author> <title>In Situ Formation of Metal Coordination Polymer: A Strategy for Fluorescence Turn-On Assay of Acetylcholinesterase Activity and Inhibitor Screening.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>2667–2672</page> <year>(2013).</year>
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10.1021
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<citation-number>39.</citation-number> <author>Jain, T., Guerrero, R. J. S., Aguilar, C. A. & Karnik, R.</author> <title>Integration of Solid-State Nanopores in Microfluidic Networks via Transfer Printing of Suspended Membranes.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>3871–3878</page> <year>(2013).</year>
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10.1021
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<citation-number>40.</citation-number> <author>Ivanov, I. et al.</author> <title>Chip-Based Nanostructured Sensors Enable Accurate Identification and Classification of Circulating Tumor Cells in Prostate Cancer Patient Blood Samples.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>398–403</page> <year>(2012).</year>
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10.1021
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<citation-number>41.</citation-number> <author>Patti, G. J. et al.</author> <title>A View from Above: Cloud Plots to Visualize Global Metabolomic Data.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>798–804</page> <year>(2012).</year>
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10.1021
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<citation-number>42.</citation-number> <author>Yang, S. et al.</author> <title>Label-Free Liquid Crystal Biosensor Based on Specific Oligonucleotide Probes for Heavy Metal Ions.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>14–18</page> <year>(2012).</year>
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10.1021
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<citation-number>43.</citation-number> <author>Allegrini, F. & Olivieri, A. C.</author> <title>Analytical Figures of Merit for Partial Least-Squares Coupled to Residual Multilinearization.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>10823–10830</page> <year>(2012).</year>
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10.1021
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<citation-number>44.</citation-number> <author>Feltrup, T. M. & Singh, B. R.</author> <title>Development of a Fluorescence Internal Quenching Correction Factor to Correct Botulinum Neurotoxin Type A Endopeptidase Kinetics Using SNAPtide.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>10549–10553</page> <year>(2012).</year>
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10.1021
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<citation-number>45.</citation-number> <author>Privman, V., Zavalov, O. & Simonian, A.</author> <title>Extended Linear Response for Bioanalytical Applications Using Multiple Enzymes.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>2027–2031</page> <year>(2013).</year>
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10.1021
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<citation-number>46.</citation-number> <author>Yang, T. et al.</author> <title>Direct and Freely Switchable Detection of Target Genes Engineered by Reduced Graphene Oxide-Poly(m-Aminobenzenesulfonic Acid) Nanocomposite via Synchronous Pulse Electrosynthesis.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1358–1366</page> <year>(2013).</year>
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10.1021
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<citation-number>47.</citation-number> <author>Halža, E., Bro, T. H., Bilenberg, B. & Kocer, A.</author> <title>Well-Defined Microapertures for Ion Channel Biosensors.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>811–815</page> <year>(2012).</year>
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10.1021
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<citation-number>48.</citation-number> <author>Knez, K. et al.</author> <title>Spherical Nucleic Acid Enhanced FO-SPR DNA Melting for Detection of Mutations in Legionella pneumophila.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1734–1742</page> <year>(2013).</year>
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10.1021
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<citation-number>49.</citation-number> <author>Gregory, K. E. et al.</author> <title>Method Development for Fecal Lipidomics Profiling.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1114–1123</page> <year>(2012).</year>
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10.1021
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<citation-number>50.</citation-number> <author>Capiau, S., Stove, V. V., Lambert, W. E. & Stove, C. P.</author> <title>Prediction of the Hematocrit of Dried Blood Spots via Potassium Measurement on a Routine Clinical Chemistry Analyzer.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>404–410</page> <year>(2012).</year>
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10.1021
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<citation-number>51.</citation-number> <author>Han, J.-H. et al.</author> <title>Photonic Crystal Lab-On-a-Chip for Detecting Staphylococcal Enterotoxin B at Low Attomolar Concentration.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>3104–3109</page> <year>(2013).</year>
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<citation-number>52.</citation-number> <author>Bueno, P. R., Fabregat-Santiago, F. & Davis, J. J.</author> <title>Elucidating Capacitance and Resistance Terms in Confined Electroactive Molecular Layers.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>411–417</page> <year>(2012).</year>
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10.1021
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<citation-number>53.</citation-number> <author>Cable, M. L., Stockton, A. M., Mora, M. F. & Willis, P. A.</author> <title>Low-Temperature Microchip Nonaqueous Capillary Electrophoresis of Aliphatic Primary Amines: Applications to Titan Chemistry.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1124–1131</page> <year>(2012).</year>
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10.1021
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<citation-number>54.</citation-number> <author>Wu, Z.-Q. et al.</author> <title>Exploration of Two-Enzyme Coupled Catalysis System Using Scanning Electrochemical Microscopy.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>10586–10592</page> <year>(2012).</year>
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10.1021
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<citation-number>55.</citation-number> <author>Nonaka, Y. et al.</author> <title>Affinity Improvement of a VEGF Aptamer byin SilicoMaturation for a Sensitive VEGF-Detection System.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1132–1137</page> <year>(2012).</year>
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10.1021
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<citation-number>56.</citation-number> <author>Tang, X. et al.</author> <title>Quenching of the Electrochemiluminescence of Tris(2,2$\prime$-bipyridine)ruthenium({II})/Tri-n-propylamine by Pristine Carbon Nanotube and Its Application to Quantitative Detection of {DNA}.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1711–1718</page> <year>(2013).</year>
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10.1021
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<citation-number>57.</citation-number> <author>Zong, S., Wang, Z., Chen, H., Yang, J. & Cui, Y.</author> <title>Surface Enhanced Raman Scattering Traceable and Glutathione Responsive Nanocarrier for the Intracellular Drug Delivery.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>2223–2230</page> <year>(2013).</year>
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10.1021
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<citation-number>58.</citation-number> <author>Neubert, H. et al.</author> <title>Sequential Protein and Peptide Immunoaffinity Capture for Mass Spectrometry-Based Quantification of Total Human $\upbeta$-Nerve Growth Factor.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1719–1726</page> <year>(2013).</year>
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10.1021
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<citation-number>59.</citation-number> <author>Gadd, J. C., Fujimoto, B. S., Bajjalieh, S. M. & Chiu, D. T.</author> <title>Single-Molecule Fluorescence Quantification with a Photobleached Internal Standard.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>10522–10525</page> <year>(2012).</year>
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10.1021
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<citation-number>60.</citation-number> <author>Lavoie, P., Boutin, M. & Auray-Blais, C.</author> <title>Multiplex Analysis of Novel Urinary Lyso-Gb3-Related Biomarkers for Fabry Disease by Tandem Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>1743–1752</page> <year>(2013).</year>
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10.1021
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<citation-number>61.</citation-number> <author>Passarelli, M. K., Ewing, A. G. & Winograd, N.</author> <title>Single-Cell Lipidomics: Characterizing and Imaging Lipids on the Surface of Individual Aplysia californica Neurons with Cluster Secondary Ion Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>85,</volume> <page>2231–2238</page> <year>(2013).</year>
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