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Name:Wenyi Zhou

Birthday: 1989-11

Professional Title:lecturer

Department:College of Chemistry

Education:doctor

Dr. Supervisor/Ms. Supervisor:

Address:Fourth floor, Borui D Block

Email:zhouwenyi@tyut.edu.cn

Biography

In 2012, a bachelor’s degree was obtained in Beijing University of chemical technology; In 2015, a master degree was obtained in University of Chinese Academy of Sciences; In 2018, a doctorate degree of chemistry was obtained in University of science and technology of China. From 2018 to 2022, I conducted postdoctoral research in International Iberian Nanotechnology Laboratory-INL and Shenzhen University. I joined Taiyuan University of technology from June 2022. My main research interest includes accurate design of electrochemically sensitive active interface materials the interaction between atoms in the field of environmental electrical analysis. In the past five years, I has published 11 SCI papers in Analytical Chemistry, Environmental Science: Nano, Chemical Communications and presided over the China Post Doctoral Fund. I was invited to write two chapters of the English works of John Wiley & Sons press in Germany, and was invited to participate in the Singapore International Conference icnnn2016, won the best oral report award. I applied for a Chinese invention patent, which has been authorized.

Education and Teaching

Undergraduate courses: Fine chemical chemistry

Scientific Research

1. Research Interests

New defect structure design and characterization of MOF material, Environmental electro-analytical chemistry

2. Paper

(1) WenYi Zhou, Rong Sun, ShanShan Li, et al. Engineering Surface Electron and Active Site at Electrochemical Sensing Interface of CN Vacancy-Mediated Prussian Blue Analogue for Analysis of Heavy Metal Ions. Applied Surface Science, 2021, 564, 150131.

(2) XiangYu Xiao, ShiHua Chen,...WenYi Zhou*, et al. Synergistic catalysis of N vacancies and ∼5 nm Au nanoparticles promoted the highly sensitive electrochemical determination of lead(II) using an Au/N-deficient-C3N4 nanocomposite. Environmental Science: Nano, 2019,6, 1895-1908.

(3) WenYi Zhou, ShanShan Li, JieYao Song, et al. High Electrochemical Sensitivity of TiO2−x Nanosheets and an Electron-Induced Mutual Interference Effect toward Heavy Metal Ions Demonstrated Using X-Ray Absorption Fine Structure Spectra. Analytical Chemistry, 2018, 90, 4328-4337.

(4) WenYi Zhou, ShanShan Li, XiangYu Xiao, et al. Defect- and phase-engineering of Mn-mediated MoS2 nanosheets for ultrahigh electrochemical sensing of heavy metal ions: chemical interactiondriven in situ catalytic redox reactions. Chemical Communications, 2018, 54, 9329-9332.

(5) WenYi Zhou, JinYun Liu, JieYao Song, et al. Surface-Electronic-State-Modulated, Single-Crystalline (001) TiO2 Nanosheets for Sensitive Electrochemical Sensing of Heavy-Metal Ions. Analytical Chemistry, 2017, 89, 3386-3394.

3. Patent

(1) Xincun Dou, Wenyi Zhou, identification method of explosives using titanium dioxide nano chip based gas sensor array, China, 2017-12, CN105510401A.

4. Projects

(1) General program of China Postdoctoral Science Foundation (2019M663031), electrochemical analysis performance of single-layer nanosheets regulated by defective active sites, 2019/11-2020/12, 80,000 RMB, Project Leader.