BIRTH DATE

1984

TITLE/POSITION

Associate professor

PHONE

EMAIL

yuanqingwang@shu.edu.cn

Education

Ph.D. Environmental Engineering, Tongji University, Shanghai, China

M.E. Environmental Science, Donghua University, Shanghai, China

B.S. Environmental Science, Qingdao University, Qingdao, China

Research Interests

Yuanqing Wang obtained his BSc in Environmental Science from Qingdao University in 2005 and MEng in Environmental Science from Donghua University in 2008. He earned his PhD in Environmental Engineering from Tongji University in 2013, where he studied biomass conversion and hydrogen production under hydrothermal conditions. From there he moved to Tokyo, Japan as a research associate and postdoctoral researcher later at RIKEN where he studied quantum chemistry calculation and electrocatalysis. In 2016 he moved to Berlin, Germany as a postdoctoral researcher at Fritz Haber Institute of the Max Planck Society where he studied molecular oxygen activation on the surface of metal oxides by using Raman spectroscopy. In 2020 he began his independent career at Shanghai University, where his group focuses on fundamental aspects of the catalytic process occurring in the interface between gas/liquid and solid by using operando spectroscopy. Yuanqing has been the recipient of the prestigious RIKEN Incentive Research Projects grant(2015).

Significant Recognition

2015 RIKEN Incentive Research Projects grant

Selected Publications

1)Wang, Y.*, Hayashi, T., He, D., Li, Y., Jin, F., Nakamura, R.* A reduced imidazolium cation layer serves as the active site for electrochemical carbon dioxide reduction.Applied Catalysis B: Environmental2020, 264, 118495.

2)Wang, Y., Hatakeyama, M., Ogata, K., Nakamura, S., Jin, F. Activation of CO₂by ionic liquid EMIM-BF₄in the electrochemical system, a theoretical study.Physical Chemistry Chemical Physics2015,17 (36), 23521-23531.

3)Wang, Y., Jin, F., Sasaki, M., Wahyudiono, Wang, F., Jing, Z., Goto, M. Selective conversion of glucose into lactic acid and acetic acid with copper oxide under hydrothermal conditions.AIChE Journal2013, 59 (6), 2096-2104.

4)Wang, Y., Wang, F., Jin, F., Jing, Z. Effects of metals and Ni₃S₂on reactions of sulfur species (HS^-, S and S₂O₃^2-) under alkaline hydrothermal conditions.Industrial & Engineering Chemistry Research2013, 52 (16), 5616-5625.

5)Werny, M.,Wang, Y., Girgsdies, F., Schlögl, R., Trunschke,. A. Fluctuating storage of the active phase in a Mn‐Na₂WO₄/SiO₂catalyst for the oxidative coupling of methane.Angewandte Chemie International Edition2020,59 (35), 14921-14926.

6)Fu, T.,Wang, Y., Wernbacher, A., Schlögl., R., Trunschke, A. Single-site vanadyl species isolated within molybdenum oxide monolayers in propane oxidation.ACS Catalysis2019, 9 (6), 4875-4886.

7)Trunschke, A., Bellini, G., Boniface, M., … &Wang, Y., Wrabetz, S. Towards Experimental Handbooks in Catalysis.Topics in Catalysis2020.https://doi.org/10.1007/s11244-020-01380-2.

Book chapters

8)Wang, Y., Hatakeyama, M., Ogata, K., Jin, F., Nakamura, S. Modeling of electrochemcial CO₂reduction. In J. Qiao (Ed.), Electrochemical reduction of carbon dioxide: fundamentals. CRC Press. 2016; pp 311-332.

9)Jin, F.,Wang, Y., Zeng, X., Shen, Z., Yao, G. Water under high temperature and pressure conditions and its applications to develop green technologies for biomass conversion. In F. Jin (Ed.), Application of hydrothermal reactions to biomass conversion. Springer Berlin Heidelberg: 2014; pp 3-28