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crossref
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article
10.1021
nature
<citation-number>52.</citation-number> <author>Hung, H.-C. et al.</author> <title>Development of an Anti-Influenza Drug Screening Assay Targeting Nucleoproteins with Tryptophan Fluorescence Quenching.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>6391–6399</page> <year>(2012).</year>
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10.1021
nature
<citation-number>53.</citation-number> <author>Hung, C.-W. & Tholey, A.</author> <title>Tandem Mass Tag Protein Labeling for Top-Down Identification and Quantification.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>161–170</page> <year>(2011).</year>
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10.1021
nature
<citation-number>54.</citation-number> <author>Ostrovidov, S. et al.</author> <title>Controlled Release of Drugs from Gradient Hydrogels for High-Throughput Analysis of Cell–Drug Interactions.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>1302–1309</page> <year>(2012).</year>
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10.1021
nature
<citation-number>55.</citation-number> <author>Zhou, H., Liu, J., Xu, J.-J. & Chen, H.-Y.</author> <title>Highly Sensitive Electrochemiluminescence Detection of Single-Nucleotide Polymorphisms Based on Isothermal Cycle-Assisted Triple-Stem Probe with Dual-Nanoparticle Label.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>8320–8328</page> <year>(2011).</year>
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10.1021
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<citation-number>56.</citation-number> <author>Sharma, A. et al.</author> <title>Nanopatterned Cadmium Selenide Langmuir–Blodgett Platform for Leukemia Detection.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>3082–3089</page> <year>(2012).</year>
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10.1021
nature
<citation-number>57.</citation-number> <author>Gerssen, A., van den Top, H. J. & van Egmond, H. P.</author> <title>Comment on “Effect of Uncontrolled Factors in a Validated Liquid Chromatography–Tandem Mass Spectrometry Method Question Its Use As a Reference Method for Marine Toxins: Major Causes for Concern”.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>476–477</page> <year>(2011).</year>
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10.1021
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<citation-number>58.</citation-number> <author>Li, H. et al.</author> <title>Use of Top-Down and Bottom-Up Fourier Transform Ion Cyclotron Resonance Mass Spectrometry for Mapping Calmodulin Sites Modified by Platinum Anticancer Drugs.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9507–9515</page> <year>(2011).</year>
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10.1021
nature
<citation-number>59.</citation-number> <author>Olivieri, A. C. & Faber, K.</author> <title>New Developments for the Sensitivity Estimation in Four-Way Calibration with the Quadrilinear Parallel Factor Model.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>186–193</page> <year>(2011).</year>
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10.1021
nature
<citation-number>60.</citation-number> <author>Wasalathanthri, D. P., Mani, V., Tang, C. K. & Rusling, J. F.</author> <title>Microfluidic Electrochemical Array for Detection of Reactive Metabolites Formed by Cytochrome P450 Enzymes.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9499–9506</page> <year>(2011).</year>
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10.1021
nature
<citation-number>61.</citation-number> <author>Grygolowicz-Pawlak, E., Numnuam, A., Thavarungkul, P., Kanatharana, P. & Bakker, E.</author> <title>Interference Compensation for Thin Layer Coulometric Ion-Selective Membrane Electrodes by the Double Pulse Technique.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>1327–1335</page> <year>(2012).</year>
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10.1021
nature
<citation-number>62.</citation-number> <author>Zhu, X., Kalyanaraman, N. & Subramanian, R.</author> <title>Enhanced Screening of Glutathione-Trapped Reactive Metabolites by In-Source Collision-Induced Dissociation and Extraction of Product Ion Using UHPLC-High Resolution Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9516–9523</page> <year>(2011).</year>
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10.1021
nature
<citation-number>63.</citation-number> <author>Chou, J. et al.</author> <title>Modeling Analyte Transport and Capture in Porous Bead Sensors.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>2569–2575</page> <year>(2012).</year>
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10.1021
nature
<citation-number>64.</citation-number> <author>Plouffe, B. D., Mahalanabis, M., Lewis, L. H., Klapperich, C. M. & Murthy, S. K.</author> <title>Clinically Relevant Microfluidic Magnetophoretic Isolation of Rare-Cell Populations for Diagnostic and Therapeutic Monitoring Applications.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>1336–1344</page> <year>(2012).</year>
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10.1021
nature
<citation-number>65.</citation-number> <author>Lühl, L. et al.</author> <title>Reconstruction Procedure for 3D Micro X-ray Absorption Fine Structure.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>1907–1914</page> <year>(2012).</year>
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en
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10.1021
nature
<citation-number>66.</citation-number> <author>Do, N. M., Olivier, M. A., Salisbury, J. J. & Wager, C. B.</author> <title>Application of Quantitative19F and1H NMR for Reaction Monitoring and In Situ Yield Determinations for an Early Stage Pharmaceutical Candidate.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>8766–8771</page> <year>(2011).</year>
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10.1021
nature
<citation-number>67.</citation-number> <author>Hossain, S. M. Z. & Brennan, J. D.</author> <title>$\upbeta$-Galactosidase-Based Colorimetric Paper Sensor for Determination of Heavy Metals.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>8772–8778</page> <year>(2011).</year>
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10.1021
nature
<citation-number>68.</citation-number> <author>Thomas, P. C., Raghavan, S. R. & Forry, S. P.</author> <title>Regulating Oxygen Levels in a Microfluidic Device.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>8821–8824</page> <year>(2011).</year>
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10.1021
nature
<citation-number>69.</citation-number> <author>Scott, M. D. et al.</author> <title>Differentiation of Prostate Cancer Cells Using Flexible Fluorescent Polymers.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>17–20</page> <year>(2011).</year>
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10.1021
nature
<citation-number>70.</citation-number> <author>Bromberg, A., Jensen, E. C., Kim, J., Jung, Y. K. & Mathies, R. A.</author> <title>Microfabricated Linear Hydrogel Microarray for Single-Nucleotide Polymorphism Detection.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>963–970</page> <year>(2011).</year>
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en
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10.1021
nature
<citation-number>71.</citation-number> <author>Horrocks, M. H. et al.</author> <title>Single Molecule Fluorescence under Conditions of Fast Flow.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>179–185</page> <year>(2011).</year>
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10.1021
nature
<citation-number>72.</citation-number> <author>Lynn, N. S., Tobet, S., Henry, C. S. & Dandy, D. S.</author> <title>Mapping Spatiotemporal Molecular Distributions Using a Microfluidic Array.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>1360–1366</page> <year>(2012).</year>
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10.1021
nature
<citation-number>73.</citation-number> <author>Mat-Desa, W. N. S., Ismail, D. & NicDaeid, N.</author> <title>Classification and Source Determination of Medium Petroleum Distillates by Chemometric and Artificial Neural Networks: A Self Organizing Feature Approach.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>7745–7754</page> <year>(2011).</year>
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en
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10.1021
nature
<citation-number>74.</citation-number> <author>Filgueira, M. R., Huang, Y., Witt, K., Castells, C. & Carr, P. W.</author> <title>Improving Peak Capacity in Fast Online Comprehensive Two-Dimensional Liquid Chromatography with Post-First-Dimension Flow Splitting.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9531–9539</page> <year>(2011).</year>
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10.1021
nature
<citation-number>75.</citation-number> <author>Abu-Rabie, P. et al.</author> <title>Method of Applying Internal Standard to Dried Matrix Spot Samples for Use in Quantitative Bioanalysis.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>8779–8786</page> <year>(2011).</year>
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10.1021
nature
<citation-number>76.</citation-number> <author>Raphael, M. P. et al.</author> <title>A New Methodology for Quantitative LSPR Biosensing and Imaging.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>1367–1373</page> <year>(2012).</year>
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10.1021
nature
<citation-number>77.</citation-number> <author>Smith, D. F., Robinson, E. W., Tolmachev, A. V., Heeren, R. M. A. & Paša-Tolic, L.</author> <title>C60Secondary Ion Fourier Transform Ion Cyclotron Resonance Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9552–9556</page> <year>(2011).</year>
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10.1021
nature
<citation-number>78.</citation-number> <author>Srinivas, R. L., Chapin, S. C. & Doyle, P. S.</author> <title>Aptamer-Functionalized Microgel Particles for Protein Detection.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9138–9145</page> <year>(2011).</year>
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10.1021
nature
<citation-number>79.</citation-number> <author>Fan, Y., Rubakhin, S. S. & Sweedler, J. V.</author> <title>Collection of Peptides Released from Single Neurons with Particle-Embedded Monolithic Capillaries Followed by Detection with Matrix-Assisted Laser Desorption/Ionization Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9557–9563</page> <year>(2011).</year>
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10.1021
nature
<citation-number>80.</citation-number> <author>Roth, M. J. et al.</author> <title>Sensitive and Reproducible Intact Mass Analysis of Complex Protein Mixtures with Superficially Porous Capillary Reversed-Phase Liquid Chromatography Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9586–9592</page> <year>(2011).</year>
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en
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10.1021
nature
<citation-number>81.</citation-number> <author>Fraga, C. G. et al.</author> <title>Impurity Profiling to Match a Nerve Agent to Its Precursor Source for Chemical Forensics Applications.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9564–9572</page> <year>(2011).</year>
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10.1021
nature
<citation-number>82.</citation-number> <author>Ma, K. et al.</author> <title>In Vivo, Transcutaneous Glucose Sensing Using Surface-Enhanced Spatially Offset Raman Spectroscopy: Multiple Rats, Improved Hypoglycemic Accuracy, Low Incident Power, and Continuous Monitoring for Greater than 17 Days.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9146–9152</page> <year>(2011).</year>
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10.1021
nature
<citation-number>83.</citation-number> <author>Meziane, D. et al.</author> <title>Thiol-yne Reaction on Boron-Doped Diamond Electrodes: Application for the Electrochemical Detection of DNA–DNA Hybridization Events.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>194–200</page> <year>(2011).</year>
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10.1021
nature
<citation-number>84.</citation-number> <author>Harms, Z. D. et al.</author> <title>Nanofluidic Devices with Two Pores in Series for Resistive-Pulse Sensing of Single Virus Capsids.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9573–9578</page> <year>(2011).</year>
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10.1021
nature
<citation-number>85.</citation-number> <author>Murayama, S. et al.</author> <title>Small Mesh Size Hydrogel for Functional Photocontrol of Encapsulated Enzymes and Small Probe Molecules.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>1374–1379</page> <year>(2012).</year>
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10.1021
nature
<citation-number>86.</citation-number> <author>Holland, P. T., McNabb, P. & Quilliam, M. A.</author> <title>Comment on “Effect of Uncontrolled Factors in a Validated Liquid Chromatography–Tandem Mass Spectrometry Method Question Its Use as a Reference Method for Marine Toxins: Major Causes for Concern”.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>478–480</page> <year>(2011).</year>
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10.1021
nature
<citation-number>87.</citation-number> <author>Bellapadrona, G. et al.</author> <title>Optimization of Localized Surface Plasmon Resonance Transducers for Studying Carbohydrate–Protein Interactions.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>232–240</page> <year>(2011).</year>
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10.1021
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<citation-number>88.</citation-number> <author>Zhang, Q. et al.</author> <title>Nanotube-Based Colorimetric Probe for Ultrasensitive Detection of Ataxia Telangiectasia Mutated Protein.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9191–9196</page> <year>(2011).</year>
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10.1021
nature
<citation-number>1.</citation-number> <author>Nguyen, T. T., Sly, K. L. & Conboy, J. C.</author> <title>Comparison of the Energetics of Avidin, Streptavidin, NeutrAvidin, and Anti-Biotin Antibody Binding to Biotinylated Lipid Bilayer Examined by Second-Harmonic Generation.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>201–208</page> <year>(2011).</year>
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10.1021
nature
<citation-number>2.</citation-number> <author>Tasaki, Y. & Okada, T.</author> <title>Control of Ice Chromatographic Retention Mechanism by Changing Temperature and Dopant Concentration.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9593–9599</page> <year>(2011).</year>
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10.1021
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<citation-number>3.</citation-number> <author>Fukui, K. & Takahashi, K.</author> <title>Infrared Multiple Photon Dissociation Spectroscopy and Computational Studies of O-Glycosylated Peptides.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>2188–2194</page> <year>(2012).</year>
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10.1021
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<citation-number>4.</citation-number> <author>Weidner, S. M. & Falkenhagen, J.</author> <title>LC-MALDI-TOF Imaging MS: A New Approach in Combining Chromatography and Mass Spectrometry of Copolymers.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9153–9158</page> <year>(2011).</year>
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10.1021
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<citation-number>5.</citation-number> <author>Angel, P. M., Spraggins, J. M., Baldwin, H. S. & Caprioli, R.</author> <title>Enhanced Sensitivity for High Spatial Resolution Lipid Analysis by Negative Ion Mode Matrix Assisted Laser Desorption Ionization Imaging Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>1557–1564</page> <year>(2012).</year>
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10.1021
nature
<citation-number>6.</citation-number> <author>Kellie, J. F. et al.</author> <title>Robust Analysis of the Yeast Proteome under 50 kDa by Molecular-Mass-Based Fractionation and Top-Down Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>209–215</page> <year>(2011).</year>
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10.1021
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<citation-number>7.</citation-number> <author>Shvartsburg, A. A. & Smith, R. D.</author> <title>Accelerated High-Resolution Differential Ion Mobility Separations Using Hydrogen.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9159–9166</page> <year>(2011).</year>
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10.1021
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<citation-number>8.</citation-number> <author>Liu, G., Ji, Q. C., Jemal, M., Tymiak, A. A. & Arnold, M. E.</author> <title>Approach To Evaluating Dried Blood Spot Sample Stability during Drying Process and Discovery of a Treated Card To Maintain Analyte Stability by Rapid On-Card pH Modification.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9033–9038</page> <year>(2011).</year>
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10.1021
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<citation-number>9.</citation-number> <author>Du, D., Wang, J., Wang, L., Lu, D. & Lin, Y.</author> <title>Integrated Lateral Flow Test Strip with Electrochemical Sensor for Quantification of Phosphorylated Cholinesterase: Biomarker of Exposure to Organophosphorus Agents.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>1380–1385</page> <year>(2012).</year>
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10.1021
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<citation-number>10.</citation-number> <author>Oka, T. et al.</author> <title>Spin-Trapping Reactions of a Novel Gauchetype Radical Trapper G-CYPMPO.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9600–9604</page> <year>(2011).</year>
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10.1021
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<citation-number>11.</citation-number> <author>Šašic, S. & Mehrens, S.</author> <title>Raman Chemical Mapping of Low-Content Active Pharmaceutical Ingredient Formulations. III. Statistically Optimized Sampling and Detection of Polymorphic Forms in Tablets on Stability.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>1019–1025</page> <year>(2011).</year>
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10.1021
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<citation-number>12.</citation-number> <author>Roberts, R., Driver, J. A., Brown, D. M., Amin, S. H. & Gregory, B. W.</author> <title>Hydrogen Peroxide-Induced Oxidation of Mixtures of Alkanethiols and Their Quantitative Detection as Alkanesulfonates by Electrospray Ionization Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9605–9613</page> <year>(2011).</year>
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10.1021
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<citation-number>13.</citation-number> <author>Laverdière, I., Caron, P., Couture, F., Guillemette, C. & Lévesque, É.</author> <title>Liquid Chromatography{\textendash}Coupled Tandem Mass Spectrometry Based Assay to Evaluate Inosine-5$\prime$-monophosphate Dehydrogenase Activity in Peripheral Blood Mononuclear Cells from Stem Cell Transplant Recipients.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>216–223</page> <year>(2011).</year>
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10.1021
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<citation-number>14.</citation-number> <author>Zhang, Y. & Zhang, C.</author> <title>Sensitive Detection of microRNA with Isothermal Amplification and a Single-Quantum-Dot-Based Nanosensor.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>224–231</page> <year>(2011).</year>
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10.1021
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<citation-number>15.</citation-number> <author>Ramautar, R., Busnel, J.-M., Deelder, A. M. & Mayboroda, O. A.</author> <title>Enhancing the Coverage of the Urinary Metabolome by Sheathless Capillary Electrophoresis-Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>885–892</page> <year>(2011).</year>
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10.1021
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<citation-number>16.</citation-number> <author>Daikhin, L., Sigalov, S., Levi, M. D., Salitra, G. & Aurbach, D.</author> <title>Quartz Crystal Impedance Response of Nonhomogenous Composite Electrodes in Contact with Liquids.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9614–9621</page> <year>(2011).</year>
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10.1021
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<citation-number>17.</citation-number> <author>Jung, S., Effelsberg, U. & Tallarek, U.</author> <title>Microchip Electrospray: Improvements in Spray and Signal Stability during Gradient Elution by an Inverted Postcolumn Makeup Flow.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9167–9173</page> <year>(2011).</year>
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10.1021
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<citation-number>18.</citation-number> <author>Ahrens, L. et al.</author> <title>Comparison of Annular Diffusion Denuder and High Volume Air Samplers for Measuring Per- and Polyfluoroalkyl Substances in the Atmosphere.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9622–9628</page> <year>(2011).</year>
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10.1021
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<citation-number>19.</citation-number> <author>Mattarucchi, E. & Guillou, C.</author> <title>Comment on “Optimized Preprocessing of Ultra-Performance Liquid Chromatography/Mass Spectrometry Urinary Metabolic Profiles for Improved Information Recovery”.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9719–9720</page> <year>(2011).</year>
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10.1021
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<citation-number>20.</citation-number> <author>Pihlasalo, S., Kulmala, A., Rozwandowicz-Jansen, A., Hänninen, P. & Härmä, H.</author> <title>Sensitive Luminometric Method for Protein Quantification in Bacterial Cell Lysate Based on Particle Adsorption and Dissociation of Chelated Europium.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>1386–1393</page> <year>(2012).</year>
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10.1021
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<citation-number>21.</citation-number> <author>Ock, K. et al.</author> <title>Real-Time Monitoring of Glutathione-Triggered Thiopurine Anticancer Drug Release in Live Cells Investigated by Surface-Enhanced Raman Scattering.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>2172–2178</page> <year>(2012).</year>
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<citation-number>22.</citation-number> <author>Guo, X. et al.</author> <title>Carbohydrate-Based Label-Free Detection of Escherichia coli ORN 178 Using Electrochemical Impedance Spectroscopy.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>241–246</page> <year>(2011).</year>
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10.1021
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<citation-number>23.</citation-number> <author>Negri, P. et al.</author> <title>Direct Optical Detection of Viral Nucleoprotein Binding to an Anti-Influenza Aptamer.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>5501–5508</page> <year>(2012).</year>
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<citation-number>24.</citation-number> <author>Valeja, S. G. et al.</author> <title>Unit Mass Baseline Resolution for an Intact 148 kDa Therapeutic Monoclonal Antibody by Fourier Transform Ion Cyclotron Resonance Mass Spectrometry.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>8391–8395</page> <year>(2011).</year>
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<citation-number>25.</citation-number> <author>Kowalska, P. et al.</author> <title>Experimental and Theoretical Polarized Raman Linear Difference Spectroscopy of Small Molecules with a New Alignment Method Using Stretched Polyethylene Film.</title> <container-title>Analytical Chemistry</container-title> <volume>84,</volume> <page>1394–1401</page> <year>(2012).</year>
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<citation-number>26.</citation-number> <author>Lee, S. Y. et al.</author> <title>High-Fidelity Optofluidic On-Chip Sensors Using Well-Defined Gold Nanowell Crystals.</title> <container-title>Analytical Chemistry</container-title> <volume>83,</volume> <page>9174–9180</page> <year>(2011).</year>
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