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Journal Abstract Search

126 related items for PubMed ID: 38500260

  • 1. The Use of Xenonucleic Acids Significantly Reduces the In Vivo Drift of Electrochemical Aptamer-Based Sensors.
    Leung KK, Gerson J, Emmons N, Heemstra JM, Kippin TE, Plaxco KW.
    Angew Chem Int Ed Engl; 2024 May 21; 63(21):e202316678. PubMed ID: 38500260
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  • 2. Survey of oligoethylene glycol-based self-assembled monolayers on electrochemical aptamer-based sensor in biological fluids.
    Son K, Uzawa T, Ito Y, Kippin T, Plaxco KW, Fujie T.
    Biochem Biophys Res Commun; 2023 Aug 06; 668():1-7. PubMed ID: 37230045
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  • 3. Dual-Frequency, Ratiometric Approaches to EAB Sensor Interrogation Support the Calibration-Free Measurement of Specific Molecules In Vivo.
    Verrinder E, Gerson J, Leung K, Kippin TE, Plaxco KW.
    ACS Sens; 2024 Jun 28; 9(6):3205-3211. PubMed ID: 38775190
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  • 8. Enhancing the analytical performance of electrochemical RNA aptamer-based sensors for sensitive detection of aminoglycoside antibiotics.
    Schoukroun-Barnes LR, Wagan S, White RJ.
    Anal Chem; 2014 Jan 21; 86(2):1131-7. PubMed ID: 24377296
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  • 10. Implantable Hydrogel-Protective DNA Aptamer-Based Sensor Supports Accurate, Continuous Electrochemical Analysis of Drugs at Multiple Sites in Living Rats.
    Li S, Dai J, Zhu M, Arroyo-Currás N, Li H, Wang Y, Wang Q, Lou X, Kippin TE, Wang S, Plaxco KW, Li H, Xia F.
    ACS Nano; 2023 Sep 26; 17(18):18525-18538. PubMed ID: 37703911
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  • 11. Reagentless measurement of aminoglycoside antibiotics in blood serum via an electrochemical, ribonucleic acid aptamer-based biosensor.
    Rowe AA, Miller EA, Plaxco KW.
    Anal Chem; 2010 Sep 01; 82(17):7090-5. PubMed ID: 20687587
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  • 12. Elucidating the Mechanisms Underlying the Signal Drift of Electrochemical Aptamer-Based Sensors in Whole Blood.
    Leung KK, Downs AM, Ortega G, Kurnik M, Plaxco KW.
    ACS Sens; 2021 Sep 24; 6(9):3340-3347. PubMed ID: 34491055
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  • 13. A tight squeeze: geometric effects on the performance of three-electrode electrochemical-aptamer based sensors in constrained, in vivo placements.
    Leung KK, Gerson J, Emmons N, Roehrich B, Verrinder E, Fetter LC, Kippin TE, Plaxco KW.
    Analyst; 2023 Mar 27; 148(7):1562-1569. PubMed ID: 36891771
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  • 14. Dual-Reporter Drift Correction To Enhance the Performance of Electrochemical Aptamer-Based Sensors in Whole Blood.
    Li H, Arroyo-Currás N, Kang D, Ricci F, Plaxco KW.
    J Am Chem Soc; 2016 Dec 14; 138(49):15809-15812. PubMed ID: 27960346
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  • 16. Cold-hot Janus electrochemical aptamer-based sensor for calibration-free determination of biomolecules.
    Feng L, Gao RY, Chen ZM, Qin SN, Cao YJ, Salminen K, Sun JJ, Wu SH.
    Biosens Bioelectron; 2024 Nov 15; 264():116642. PubMed ID: 39126905
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  • 18. Employing an Intercalated Redox Reporter in Electrochemical Aptamer-Based Biosensors to Enable Calibration-Free Molecular Measurements in Undiluted Serum.
    Zhu M, Li S, Li H, Li H, Xia F.
    Anal Chem; 2020 Sep 15; 92(18):12437-12441. PubMed ID: 32786211
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  • 19. Interrogation of Electrochemical Aptamer-Based Sensors via Peak-to-Peak Separation in Cyclic Voltammetry Improves the Temporal Stability and Batch-to-Batch Variability in Biological Fluids.
    Pellitero MA, Curtis SD, Arroyo-Currás N.
    ACS Sens; 2021 Mar 26; 6(3):1199-1207. PubMed ID: 33599479
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