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crossref | en | article | 10.1021 | nature | <citation-number>58.</citation-number> <author>Miotke, L., Lau, B. T., Rumma, R. T. & Ji, H. P.</author> <title>High Sensitivity Detection and Quantitation of DNA Copy Number and Single Nucleotide Variants with Single Color Droplet Digital PCR.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2618–2624</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>59.</citation-number> <author>May, J. C. et al.</author> <title>Conformational Ordering of Biomolecules in the Gas Phase: Nitrogen Collision Cross Sections Measured on a Prototype High Resolution Drift Tube Ion Mobility-Mass Spectrometer.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2107–2116</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>60.</citation-number> <author>Jackson, R. et al.</author> <title>Development of a Fluorescence-Based Sensor for Rapid Diagnosis of Cyanide Exposure.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1845–1852</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>61.</citation-number> <author>Wolken, G. G. & Arriaga, E. A.</author> <title>Simultaneous Measurement of Individual Mitochondrial Membrane Potential and Electrophoretic Mobility by Capillary Electrophoresis.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>4217–4226</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>62.</citation-number> <author>Kumara, C. & Dass, A.</author> <title>Au329(SR)84 Nanomolecules: Compositional Assignment of the 76.3 kDa Plasmonic Faradaurates.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>4227–4232</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>63.</citation-number> <author>Venter, A. R., Douglass, K. A., Shelley, J. T., Hasman, G. & Honarvar, E.</author> <title>Mechanisms of Real-Time, Proximal Sample Processing during Ambient Ionization Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>233–249</page> <year>(2013).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>64.</citation-number> <author>Cannon, J. R. et al.</author> <title>Ultraviolet Photodissociation for Characterization of Whole Proteins on a Chromatographic Time Scale.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2185–2192</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>65.</citation-number> <author>Hengel, S. M. et al.</author> <title>Measurement of in Vivo Drug Load Distribution of Cysteine-Linked Antibody–Drug Conjugates Using Microscale Liquid Chromatography Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>3420–3425</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>66.</citation-number> <author>Horie, K. et al.</author> <title>Hydrophilic Interaction Chromatography Using a Meter-Scale Monolithic Silica Capillary Column for Proteomics LC-MS.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>3817–3824</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>67.</citation-number> <author>Cai, Y. et al.</author> <title>Environment-Sensitive Fluorescent Supramolecular Nanofibers for Imaging Applications.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2193–2199</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>68.</citation-number> <author>Larkey, N. E., Almlie, C. K., Tran, V., Egan, M. & Burrows, S. M.</author> <title>Detection of miRNA Using a Double-Strand Displacement Biosensor with a Self-Complementary Fluorescent Reporter.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1853–1863</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>69.</citation-number> <author>Dvoyashkin, M., Bhase, H., Mirnazari, N., Vasenkov, S. & Bowers, C. R.</author> <title>Single-File Nanochannel Persistence Lengths from NMR.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2200–2204</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>70.</citation-number> <author>Chen, F. et al.</author> <title>Development of Atom Transfer Radical Polymer-Modified Gold Nanoparticle-Based Enzyme-Linked Immunosorbent Assay (ELISA).</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>10021–10024</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>71.</citation-number> <author>Ridder, L. et al.</author> <title>In SilicoPrediction and Automatic LC–MSnAnnotation of Green Tea Metabolites in Urine.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>4767–4774</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>72.</citation-number> <author>Craig, D. et al.</author> <title>Confocal SERS Mapping of Glycan Expression for the Identification of Cancerous Cells.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>4775–4782</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>73.</citation-number> <author>Lin, K.-Y., Chang, W.-T., Lai, Y.-C. & Liau, I.</author> <title>Toward Functional Screening of Cardioactive and Cardiotoxic Drugs with Zebrafish in Vivo Using Pseudodynamic Three-Dimensional Imaging.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2213–2220</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>74.</citation-number> <author>Wegner, A. et al.</author> <title>Fragment Formula Calculator (FFC): Determination of Chemical Formulas for Fragment Ions in Mass Spectrometric Data.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2221–2228</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>75.</citation-number> <author>Crawley, N., Thompson, M. & Romaschin, A.</author> <title>Theranostics in the Growing Field of Personalized Medicine: An Analytical Chemistry Perspective.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>130–160</page> <year>(2013).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>76.</citation-number> <author>Asiala, S. M. & Schultz, Z. D.</author> <title>Surface Enhanced Raman Correlation Spectroscopy of Particles in Solution.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2625–2632</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>77.</citation-number> <author>Wang, W. & Tao, N.</author> <title>Detection, Counting, and Imaging of Single Nanoparticles.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2–14</page> <year>(2013).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>78.</citation-number> <author>Jebaraj, A. J. J. & Scherson, D.</author> <title>Quantitative Aspects of Normalized Differential Reflectance Spectroscopy: Pt(111) in Aqueous Electrolytes.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>4241–4248</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>79.</citation-number> <author>Kanoatov, M., Cherney, L. T. & Krylov, S. N.</author> <title>Extracting Kinetics from Affinity Capillary Electrophoresis (ACE) Data: A New Blade for the Old Tool.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1298–1305</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>80.</citation-number> <author>Dereli-Korkut, Z., Akaydin, H. D., Ahmed, A. H. R., Jiang, X. & Wang, S.</author> <title>Three Dimensional Microfluidic Cell Arrays forex VivoDrug Screening with Mimicked Vascular Flow.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2997–3004</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>81.</citation-number> <author>Daly, C. E., Ng, L. L., Hakimi, A., Willingale, R. & Jones, D. J. L.</author> <title>Qualitative and Quantitative Characterization of Plasma Proteins When Incorporating Traveling Wave Ion Mobility into a Liquid Chromatography–Mass Spectrometry Workflow for Biomarker Discovery: Use of Product Ion Quantitation As an Alternative Data Analysis Tool for Label Free Quantitation.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1972–1979</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>82.</citation-number> <author>Crespo, G. A., Afshar, M. G., Dorokhin, D. & Bakker, E.</author> <title>Thin Layer Coulometry Based on Ion-Exchanger Membranes for Heparin Detection in Undiluted Human Blood.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1357–1360</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>83.</citation-number> <author>Zimnicka, M. et al.</author> <title>Structural Elucidation of Specific Noncovalent Association of Folic Acid with Native Cyclodextrins Using an Ion Mobility Mass Spectrometry and Theoretical Approach.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>4249–4255</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>84.</citation-number> <author>Tengstrand, E., Lindberg, J. & Åberg, K. M.</author> <title>TracMass 2—A Modular Suite of Tools for Processing Chromatography-Full Scan Mass Spectrometry Data.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>3435–3442</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>85.</citation-number> <author>Kim, C.-J. et al.</author> <title>Gold Nanoparticles-Based Colorimetric Assay for Cathepsin B Activity and the Efficiency of Its Inhibitors.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>3825–3833</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>86.</citation-number> <author>Yuan, L. et al.</author> <title>Biomimetic Superoxide Dismutase Stabilized by Photopolymerization for Superoxide Anions Biosensing and Cell Monitoring.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>4783–4790</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>87.</citation-number> <author>Gibb, T. R., Ivanov, A. P., Edel, J. B. & Albrecht, T.</author> <title>Single Molecule Ionic Current Sensing in Segmented Flow Microfluidics.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1864–1871</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>88.</citation-number> <author>Sjövall, P. et al.</author> <title>Imaging of Distribution of Topically Applied Drug Molecules in Mouse Skin by Combination of Time-of-Flight Secondary Ion Mass Spectrometry and Scanning Electron Microscopy.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>3443–3452</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>89.</citation-number> <author>Geertsen, V., Tabarant, M. & Spalla, O.</author> <title>Behavior and Determination of Titanium Dioxide Nanoparticles in Nitric Acid and River Water by ICP Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>3453–3460</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>90.</citation-number> <author>Zinnel, N. F. & Russell, D. H.</author> <title>Size-to-Charge Dispersion of Collision-Induced Dissociation Product Ions for Enhancement of Structural Information and Product Ion Identification.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>4791–4798</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>91.</citation-number> <author>Konermann, L., Vahidi, S. & Sowole, M. A.</author> <title>Mass Spectrometry Methods for Studying Structure and Dynamics of Biological Macromolecules.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>213–232</page> <year>(2013).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>92.</citation-number> <author>Lanekoff, I., Thomas, M. & Laskin, J.</author> <title>Shotgun Approach for Quantitative Imaging of Phospholipids Using Nanospray Desorption Electrospray Ionization Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1872–1880</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>93.</citation-number> <author>Dutkiewicz, E. P., Lin, J.-D., Tseng, T.-W., Wang, Y.-S. & Urban, P. L.</author> <title>Hydrogel Micropatches for Sampling and Profiling Skin Metabolites.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2337–2344</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>94.</citation-number> <author>Tao, Y., Dai, J., Kong, Y. & Sha, Y.</author> <title>Temperature-Sensitive Electrochemical Recognition of Tryptophan Enantiomers Based on $\upbeta$-Cyclodextrin Self-Assembled on Poly(l-Glutamic Acid).</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2633–2639</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>1.</citation-number> <author>Brent, L. C., Reiner, J. L., Dickerson, R. R. & Sander, L. C.</author> <title>Method for Characterization of Low Molecular Weight Organic Acids in Atmospheric Aerosols Using Ion Chromatography Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>7328–7336</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>2.</citation-number> <author>Xi, Q. et al.</author> <title>Highly Sensitive and Selective Strategy for MicroRNA Detection Based on WS2 Nanosheet Mediated Fluorescence Quenching and Duplex-Specific Nuclease Signal Amplification.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1361–1365</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>3.</citation-number> <author>Watt, E. D. & Rienstra, C. M.</author> <title>Recent Advances in Solid-State Nuclear Magnetic Resonance Techniques to Quantify Biomolecular Dynamics.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>58–64</page> <year>(2013).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>4.</citation-number> <author>Schulz, C., Ludwig, R. & Gorton, L.</author> <title>Polyethyleneimine as a Promoter Layer for the Immobilization of Cellobiose Dehydrogenase from Myriococcum thermophilum on Graphite Electrodes.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>4256–4263</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>5.</citation-number> <author>Zhang, H.-R., Wu, M.-S., Xu, J.-J. & Chen, H.-Y.</author> <title>Signal-On Dual-Potential Electrochemiluminescence Based on Luminol–Gold Bifunctional Nanoparticles for Telomerase Detection.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>3834–3840</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>6.</citation-number> <author>Wang, H. et al.</author> <title>Retardation Signal for Fluorescent Determination of Total Protein Content via Rapid and Sensitive Chip Moving Reaction Boundary Electrophoretic Titration.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2888–2894</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>7.</citation-number> <author>Hassan, W. M. I. & Dena, A. S. A.</author> <title>Unraveling the Nature of Interaction between Substituted Phenol and Amiodarone.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1881–1886</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>8.</citation-number> <author>Narayanaswamy, P. et al.</author> <title>Lipidomic “Deep Profiling”: An Enhanced Workflow to Reveal New Molecular Species of Signaling Lipids.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>3043–3047</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>9.</citation-number> <author>Bartel, J. et al.</author> <title>Laser Microdissection of Paraffin Embedded Tissue as a Tool to Estimate the Sialylation Status of Selected Cell Populations.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2326–2331</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>10.</citation-number> <author>Chainani, E. T., Choi, W.-H., Ngo, K. T. & Scheeline, A.</author> <title>Mixing in Colliding, Ultrasonically Levitated Drops.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2229–2237</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>11.</citation-number> <author>Kailemia, M. J., Ruhaak, L. R., Lebrilla, C. B. & Amster, I. J.</author> <title>Oligosaccharide Analysis by Mass Spectrometry: A Review of Recent Developments.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>196–212</page> <year>(2013).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>12.</citation-number> <author>Kim, T.-H., Park, J., Kim, C.-J. & Cho, Y.-K.</author> <title>Fully Integrated Lab-on-a-Disc for Nucleic Acid Analysis of Food-Borne Pathogens.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>3841–3848</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>13.</citation-number> <author>Xu, L.-J. et al.</author> <title>Label-Free Detection of Native Proteins by Surface-Enhanced Raman Spectroscopy Using Iodide-Modified Nanoparticles.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2238–2245</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>14.</citation-number> <author>Tracey, P. J., Vaughn, B. S., Roberts, B. J., Poad, B. L. J. & Trevitt, A. J.</author> <title>Rapid Profiling of Laser-Induced Photochemistry in Single Microdroplets Using Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2895–2899</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>15.</citation-number> <author>Brewer, P. J. et al.</author> <title>Preparation and Validation of Fully Synthetic Standard Gas Mixtures with Atmospheric Isotopic Composition for Global CO2 and CH4 Monitoring.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1887–1893</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>16.</citation-number> <author>Allen, D. K. et al.</author> <title>Quantification of Peptide m/z Distributions from 13C-Labeled Cultures with High-Resolution Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1894–1901</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>17.</citation-number> <author>Yang, Y., Stella, C., Wang, W., Schöneich, C. & Gennaro, L.</author> <title>Characterization of Oxidative Carbonylation on Recombinant Monoclonal Antibodies.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>4799–4806</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>18.</citation-number> <author>Zheng, Y., Yang, C., Yang, F. & Yang, X.</author> <title>Real-Time Study of Interactions between Cytosine–Cytosine Pairs in DNA Oligonucleotides and Silver Ions Using Dual Polarization Interferometry.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>3849–3855</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>19.</citation-number> <author>Xie, X., Zhai, J. & Bakker, E.</author> <title>pH Independent Nano-Optode Sensors Based on Exhaustive Ion-Selective Nanospheres.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2853–2856</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>20.</citation-number> <author>Franze, B. & Engelhard, C.</author> <title>Fast Separation, Characterization, and Speciation of Gold and Silver Nanoparticles and Their Ionic Counterparts with Micellar Electrokinetic Chromatography Coupled to ICP-MS.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>5713–5720</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>21.</citation-number> <author>Boutin, M. & Auray-Blais, C.</author> <title>Multiplex Tandem Mass Spectrometry Analysis of Novel Plasma Lyso-Gb3-Related Analogues in Fabry Disease.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>3476–3483</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>22.</citation-number> <author>Pan, L. Y., Salas-Solano, O. & Valliere-Douglass, J. F.</author> <title>Conformation and Dynamics of Interchain Cysteine-Linked Antibody-Drug Conjugates as Revealed by Hydrogen/Deuterium Exchange Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2657–2664</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>23.</citation-number> <author>Hong, Q. et al.</author> <title>Label-Free Absolute Quantitation of Oligosaccharides Using Multiple Reaction Monitoring.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2640–2647</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>24.</citation-number> <author>Tseng, M.-C. & Chu, Y.-H.</author> <title>Reaction-Based Azide Gas Sensing with Tailored Ionic Liquids Measured by Quartz Crystal Microbalance.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1949–1952</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>25.</citation-number> <author>Yeh, L.-H., Hughes, C., Zeng, Z. & Qian, S.</author> <title>Tuning Ion Transport and Selectivity by a Salt Gradient in a Charged Nanopore.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>2681–2686</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>26.</citation-number> <author>Fenselau, C.</author> <title>Critical Reviews in Analytical Chemistry.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>27.</citation-number> <author>Cha, K. H., Jensen, G. C., Balijepalli, A. S., Cohan, B. E. & Meyerhoff, M. E.</author> <title>Evaluation of Commercial Glucometer Test Strips for Potential Measurement of Glucose in Tears.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1902–1908</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>28.</citation-number> <author>Menzel, M. & Fittschen, U. E. A.</author> <title>Total Reflection X-ray Fluorescence Analysis of Airborne Silver Nanoparticles from Fabrics.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>3053–3059</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>29.</citation-number> <author>Yates, J. R., Mohammed, S. & Heck, A. J. R.</author> <title>Phosphoproteomics.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1313</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>30.</citation-number> <author>Dator, R. P., Gaston, K. W. & Limbach, P. A.</author> <title>Multiple Enzymatic Digestions and Ion Mobility Separation Improve Quantification of Bacterial Ribosomal Proteins by Data Independent Acquisition Liquid Chromatography-Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>4264–4270</page> <year>(2014).</year> |
crossref | en | article | 10.1021 | nature | <citation-number>31.</citation-number> <author>Shintaku, H., Nishikii, H., Marshall, L. A., Kotera, H. & Santiago, J. G.</author> <title>On-Chip Separation and Analysis of RNA and DNA from Single Cells.</title> <container-title>Analytical Chemistry</container-title> <volume>86,</volume> <page>1953–1957</page> <year>(2014).</year> |
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