Hong Chen
Shanghai University
6 Papers
28 Citations
Hong Chen is an academic researcher from Shanghai University. The author has contributed to research in topics: Nanoprobe & Breast cancer. The author has an hindex of 5, co-authored 6 publications.
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Papers
Integration of fluorescence imaging and electrochemical biosensing for both qualitative location and quantitative detection of cancer cells.
TL;DR: Experimental results demonstrate that strong red fluorescence of DNA-AgNCs clearly displays the loading of cancer cells on ITO electrode after dual recognition, and amplified electrochemical signals ofDNA- AgNCs enable improved sensitivity toward quantitative analysis with a detection limit of 3 cells.
68
Design Nanoprobe Based on Its Binding with Amino Acid Residues on Cell Surface and Its Application to Electrochemical Analysis of Cells.
TL;DR: The nanoprobe p-sulfonatocalix[4]arene-modified silver nanoparticles ( pSC4-AgNPs) are synthesized and explored as a universal nanoprobe, showing a great potential in the development of electrochemical methods for cell detection.
26
Determination of hypoxia-inducible factor-1 by using a ratiometric colorimetric test based on click-mediated growth of gold nanoparticles
TL;DR: A significantly improved colorimetric nanoprobe for the determination of transcription factors (TFs) making use of click-mediated growth of gold nanoparticles (AuNPs) to amplify the signal-to-noise ratio and is selective and can be used in complex samples.
6
Application of Isothermal Nucleic Acid Signal Amplification in the Detection of Hepatocellular Carcinoma-Associated MicroRNA.
TL;DR: Isothermal nucleic acid signal amplification is an emerging signal amplification technology which has the advantages of high amplification efficiency, good reproducibility, and easy operation for real-time analysis in HCC patients.
Cellular interface supported toehold strand displacement cascade for amplified dual-electrochemical signal and its application for tumor cell analysis
TL;DR: Based on cellular interface supported TSDC for amplified dual-electrochemical signal, the established method has been successfully applied to analyze the tumor cells in serum accurately and sensitively.