Yuanqing Wang
Yuanqing Wang
Materials Genome Institute, Shanghai University
Verified email at sjtu.edu.cn - Homepage
Cited by
Cited by
Activation of CO 2 by ionic liquid EMIM–BF 4 in the electrochemical system: a theoretical study
Y Wang, M Hatakeyama, K Ogata, M Wakabayashi, F Jin, S Nakamura
Physical Chemistry Chemical Physics 17 (36), 23521-23531, 2015
Selective conversion of glucose into lactic acid and acetic acid with copper oxide under hydrothermal conditions
Y Wang, F Jin, M Sasaki, F Wang, Z Jing, M Goto
AIChE Journal 59 (6), 2096-2104, 2013
Hydrothermal conversion of cellulose into lactic acid with nickel catalyst
FW Wang, ZB Huo, YQ Wang, FM Jin
Research on chemical intermediates 37 (2-5), 487-492, 2011
Water under high temperature and pressure conditions and its applications to develop green technologies for biomass conversion
F Jin, Y Wang, X Zeng, Z Shen, G Yao
Application of hydrothermal reactions to biomass conversion, 3-28, 2014
Legitimate intermediates of oxygen evolution on iridium oxide revealed by in situ electrochemical evanescent wave spectroscopy
H Ooka, Y Wang, A Yamaguchi, M Hatakeyama, S Nakamura, ...
Physical Chemistry Chemical Physics 18 (22), 15199-15204, 2016
NaHCO 3-enhanced hydrogen production from water with Fe and in situ highly efficient and autocatalytic NaHCO 3 reduction into formic acid
J Duo, F Jin, Y Wang, H Zhong, L Lyu, G Yao, Z Huo
Chemical Communications 52 (16), 3316-3319, 2016
New insights into highly efficient reduction of CO 2 to formic acid by using zinc under mild hydrothermal conditions: a joint experimental and theoretical study
X Zeng, M Hatakeyama, K Ogata, J Liu, Y Wang, Q Gao, K Fujii, M Fujihira, ...
Physical Chemistry Chemical Physics 16 (37), 19836-19840, 2014
One-pot hydrothermal conversion of cellulose into organic acids with CuO as an oxidant
F Wang, Y Wang, F Jin, G Yao, Z Huo, X Zeng, Z Jing
Industrial & Engineering Chemistry Research 53 (19), 7939-7946, 2014
Direct and highly efficient reduction of NiO into Ni with cellulose under hydrothermal conditions
G Yao, X Zeng, Q Li, Y Wang, Z Jing, F Jin
Industrial & engineering chemistry research 51 (23), 7853-7858, 2012
A novel method for producing hydrogen from water with Fe enhanced by HS− under mild hydrothermal conditions
Y Wang, F Jin, X Zeng, G Yao, Z Jing
international journal of hydrogen energy 38 (2), 760-768, 2013
Effects of general zero-valent metals power of Co/W/Ni/Fe on hydrogen production with H2S as a reductant under hydrothermal conditions
S Zhang, F Jin, X Zeng, J Hu, Z Huo, Y Wang, N Watanabe, N Hirano, ...
International journal of hydrogen energy 36 (15), 8878-8884, 2011
Effects of Metals and Ni3S2 on Reactions of Sulfur Species (HS, S, and S2O32–) under Alkaline Hydrothermal Conditions
Y Wang, F Wang, F Jin, Z Jing
Industrial & Engineering Chemistry Research 52 (16), 5616-5625, 2013
Universally improving effect of mixed electron donors on the CO2 fixing efficiency of non-photosynthetic microbial communities from marine environments
J Hu, L Wang, S Zhang, Y Wang, F Jin, X Fu, H Li
Journal of Environmental Sciences 26 (8), 1709-1716, 2014
Hydrothermal conversion of cellulose into organic acids with a CuO oxidant
Y Wang, G Yao, F Jin
Application of Hydrothermal Reactions to Biomass Conversion, 31-59, 2014
Catalytic activity of Ni3S2 and effects of reactor wall in hydrogen production from water with hydrogen sulphide as a reducer under hydrothermal conditions
Y Wang, F Jin, X Zeng, C Ma, F Wang, G Yao, Z Jing
Applied energy 104, 306-309, 2013
Single-Site Vanadyl Species Isolated within Molybdenum Oxide Monolayers in Propane Oxidation
T Fu, Y Wang, A Wernbacher, R Schlögl, A Trunschke
ACS Catalysis 9 (6), 4875-4886, 2019
Kinetics and mechanism of reduction of CO2 by glycerol under alkaline hydrothermal conditions
Y Wang, F Wang, C Li, F Jin
international journal of hydrogen energy 41 (21), 9128-9134, 2016
How to control selectivity in alkane oxidation?
RSAT Xuan Li, Detre Teschner, Verena Streibel, Thomas Lunkenbein, Liudmyla ...
Chemical Science, 2019
A reduced imidazolium cation layer serves as the active site for electrochemical carbon dioxide reduction
Y Wang, T Hayashi, D He, Y Li, F Jin, R Nakamura
Applied Catalysis B: Environmental 264, 118495, 2020
A novel Pd/C-catalyzed conversion of glucose to 1, 2-propanediol by water splitting with Zn
J Wang, G Yao, Y Wang, H Zhang, Z Huo, F Jin
RSC Advances 5 (63), 51435-51439, 2015
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