Yuyin Long
Sichuan University
7 Papers
62 Citations
Yuyin Long is an academic researcher from Sichuan University. The author has contributed to research in topics: Chemistry & Glucose oxidase. The author has an hindex of 6, co-authored 7 publications.
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Papers
A polyaniline microtube platform for direct electron transfer of glucose oxidase and biosensing applications
TL;DR: Using glucose oxidase (GOx) as a model redox protein, a direct electron transfer strategy based on PANI microtubes was developed for fabricating sensitive biosensors and a promising application of PANi microtube-based bios Sensors was offered.
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Ultrasensitive Visual Detection of HIV DNA Biomarkers via a Multi-amplification Nanoplatform
TL;DR: A facile and label-free multi-amplification strategy that combines glucose oxidase biocatalysis, DNAzyme-catalyzed colorimetric reaction and catalytic hairpin assembly recycling amplification together, suggesting wide applications that range from virus detection to genetic disease diagnosis.
An electrochemiluminescence amplification strategy: a synergistic effect of electrospun Ru(bpy)32+/CNT/ionic liquid composite nanofibers
TL;DR: In this article, an electrochemiluminescence (ECL) sensor based on the CNT/IL/PAN nanofibers was developed to sensitively detect phenolic compounds with a low detection limit of 1.0 nM for phenols.
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An enhanced chemiluminescence bioplatform by confining glucose oxidase in hollow calcium carbonate particles.
TL;DR: The visual CL bioplatform showed an excellent performance with high selectivity, wide linear range and low detection limit for sensing trace glucose, which could be attributed to the HCC particles’ high biocompatibility, large specific surface area, attractive interfacial properties and efficient interaction with analyses.
Facile and fast fabrication of polyaniline nanorods on acidized titanium foils with a synergistic effect for electrochemical sensing
TL;DR: Improved electrochemical performance suggests promising application of PANI-NR/CNT/Ti-ac as a sensing platform and reduces redox potential and improves electron transport capability.
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