Nitrogen-Doped Carbon Dots: A Facile and General Preparation Method, Photoluminescence Investigation, and Imaging Applications, Xu, Y; Wu, M; Liu, Y; Feng, XZ; Yin, XB*; He, XW and Zhang, YK, Chemistry – A European Journal, 19: 2276-2283, 2013.
Functional nucleic acids for electrochemical and electrochemiluminescent sensing applications, Yin, XB*, TrAC Trends in Analytical Chemistry, 33, 81-94, 2012.
Analyte-induced formation of partial duplexes for the preparation of a label-free electrochemiluminescent aptasensor, Zhao, Y; He, XW and Yin, XB*, Chemical Communications, 47: 6419-6421, 2011.
Functional nucleic acid-based electrochemiluminescent biosensor for interaction study and detection of Ag+ ions and cysteine, Tang, CX; Bu, NN; He, XW and Yin, XB*, Chemical Communications, 47, 12304-12306, 2011.
Tetrahedron-structured DNA and functional oligonucleotide for construction of an electrochemical DNA-based biosensor, Bu, NN; Tang, CX; He, XW and Yin, XB*, Chemical Communications, 47: 7689-7691, 2011.
A "turn-on'' electrochemiluminescent biosensor for detecting Hg2+ at femtomole level based on the intercalation of Ru(phen)32+ into ds-DNA, Tang, CX; Zhao, Y; He, XW and Yin, XB*, Chemical Communications, 46: 9022-9024, 2010.
Label-Free Electrochemiluminescent Aptasensor with Attomolar Mass Detection Limits Based on a Ru(phen)32+-Double-Strand DNA Composite Film Electrode, Yin, XB*; Xin, YY and Zhao, Y, Analytical Chemistry, 81: 9299-9305, 2009.
