Bin Su
20 Papers
1 Citations
Bin Su is an academic researcher. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 2, co-authored 8 publications.
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Papers
Gold Microbeads Enabled Proximity Electrochemiluminescence for Highly Sensitive and Size-Encoded Multiplex Immunoassays.
Xinrui Yang,Junmeng Hang,Yulan Wang,Lei Wang,Ping Zhou,Hao Ding,Bin Su,Jianping Lei,Weiliang Guo,Zhihui Dai +9 more
TL;DR: In this article , the authors reported the proximity electrochemiluminescence (ECL) generation enabled by gold microbeads (GMBs) for improving the detection sensitivity and multiplexing capacity of ECL immunoassays.
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Hue Recognition Competitive Fluorescent Lateral Flow Immunoassay for Aflatoxin M1 Detection with Improved Visual and Quantitative Performance.
Jing Wang,Chenxing Jiang,Jingrui Yuan,Lu Tong,Yang Wang,Dinglv Zhuo,Liang Huang,Weihong Ni,Jia Fei Zhang,Mei Huang,Daquan Li,Bin Su,Jungao Hu +12 more
TL;DR: In this article , a fluorescent lateral flow immunoassay (HCLFIA) strip was proposed for point-of-care (POC) detection of aflatoxin M1 (AFM1).
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Unraveling Mechanisms of Highly Efficient Yet Stable Electrochemiluminescence from Quantum Dots.
Zhiyuan Cao,Chuyue Li,Yufei Shu,Meiyi Zhu,Bin Su,Haiyan Qin,Xiaogang Peng +6 more
TL;DR: Unraveling mechanisms of highly efficient yet stable electrochemiluminescence from quantum dots reveals the key intermediate and kinetics of the process, leading to the design of highly efficient and stable electrochemiluminescence emitters.
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COF-Coated Microelectrode for Space-Confined Electrochemical Sensing of Dopamine in Parkinson's Disease Model Mouse Brain.
Lin Zhou,Rongjie Yang,Xinru Li,Nuo Dong,Boyu Zhu,Jingjing Wang,Xingyu Lin,Bin Su +7 more
TL;DR: The fabrication of a covalent organic framework-modified carbon fiber microelectrode (cCFE) that enables the real-time detection of DA in the mouse brain thanks to the outstanding antibiofouling and antichemical fouling ability, excellent analytical selectivity, and sensitivity offered by the COF modification.
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Surface-Sensitive Imaging Analysis of Cell-Microenvironment Interactions by Electrochemiluminescence Microscopy.
TL;DR: A surface-sensitive imaging methodology for evaluating the difference in cell-matrix adhesions at the single cell level to dissect the impact of the chemical microenvironment on cell behaviors and provides not only insights into cell-microenvironment interaction but also guideline in the design and development of functional and biomimetic surface materials.
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