Yueshen Wu
Yueshen Wu
Senior Chemist, Twelve
Verified email at
Cited by
Cited by
Domino electroreduction of CO 2 to methanol on a molecular catalyst
Y Wu, Z Jiang, X Lu, Y Liang, H Wang
Nature 575 (7784), 639-642, 2019
Active sites of copper-complex catalytic materials for electrochemical carbon dioxide reduction
Z Weng, Y Wu, M Wang, J Jiang, K Yang, S Huo, XF Wang, Q Ma, ...
Nature communications 9 (1), 1-9, 2018
Electrochemical CO2 Reduction to Hydrocarbons on a Heterogeneous Molecular Cu Catalyst in Aqueous Solution
Z Weng, J Jiang, Y Wu, Z Wu, X Guo, KL Materna, W Liu, VS Batista, ...
Journal of the American Chemical Society 138 (26), 8076-8079, 2016
Introducing Fe2+ into Nickel–Iron Layered Double Hydroxide: Local Structure Modulated Water Oxidation Activity
Z Cai, D Zhou, M Wang, SM Bak, Y Wu, Z Wu, Y Tian, X Xiong, Y Li, W Liu, ...
Angewandte Chemie 130 (30), 9536-9540, 2018
Electroreduction of CO2 Catalyzed by a Heterogenized Zn–Porphyrin Complex with a Redox-Innocent Metal Center
Y Wu, J Jiang, Z Weng, M Wang, DLJ Broere, Y Zhong, GW Brudvig, ...
ACS central science 3 (8), 847-852, 2017
Spatially separating redox centers on 2D carbon nitride with cobalt single atom for photocatalytic H2O2 production
C Chu, Q Zhu, Z Pan, S Gupta, D Huang, Y Du, S Weon, Y Wu, C Muhich, ...
Proceedings of the National Academy of Sciences 117 (12), 6376-6382, 2020
Self‐Cleaning Catalyst Electrodes for Stabilized CO2 Reduction to Hydrocarbons
Z Weng, X Zhang, Y Wu, S Huo, J Jiang, W Liu, G He, Y Liang, H Wang
Angewandte Chemie 129 (42), 13315-13319, 2017
High-Performance Electrochemical CO2 Reduction Cells Based on Non-noble Metal Catalysts
X Lu, Y Wu, X Yuan, L Huang, Z Wu, J Xuan, Y Wang, H Wang
ACS Energy Letters 3 (10), 2527-2532, 2018
Coupled Metal/Oxide Catalysts with Tunable Product Selectivity for Electrocatalytic CO2 Reduction
S Huo, Z Weng, Z Wu, Y Zhong, Y Wu, J Fang, H Wang
ACS applied materials & interfaces 9 (34), 28519-28526, 2017
Direct electrosynthesis of methylamine from carbon dioxide and nitrate
Y Wu, Z Jiang, Z Lin, Y Liang, H Wang
Nature Sustainability, 1-6, 2021
Selectivity regulation of CO2 electroreduction through contact interface engineering on superwetting Cu nanoarray electrodes
Z Cai, Y Zhang, Y Zhao, Y Wu, W Xu, X Wen, Y Zhong, Y Zhang, W Liu, ...
Nano Research 12 (2), 345-349, 2019
CO2 doping of organic interlayers for perovskite solar cells
J Kong, Y Shin, JA Röhr, H Wang, J Meng, Y Wu, A Katzenberg, G Kim, ...
Nature 594 (7861), 51-56, 2021
Unlocking Bifunctional Electrocatalytic Activity for CO2 Reduction Reaction by Win-Win Metal–Oxide Cooperation
Z Cai, Y Wu, Z Wu, L Yin, Z Weng, Y Zhong, W Xu, X Sun, H Wang
ACS Energy Letters 3 (11), 2816-2822, 2018
Activating Copper for Electrocatalytic CO2 Reduction to Formate via Molecular Interactions
Z Tao, Z Wu, Y Wu, H Wang
ACS Catalysis 10 (16), 9271-9275, 2020
Copper–Gold Interactions Enhancing Formate Production from Electrochemical CO2 Reduction
Z Tao, Z Wu, X Yuan, Y Wu, H Wang
ACS Catalysis 9 (12), 10894-10898, 2019
An Integrated CO2 Electrolyzer and Formate Fuel Cell Enabled by a Reversibly Restructuring Pb–Pd Bimetallic Catalyst
X Lu, Y Wu, X Yuan, H Wang
Angewandte Chemie International Edition 58 (12), 4031-4035, 2019
Electrode-Ligand Interactions Dramatically Enhance CO2 Conversion to CO by the [Ni(cyclam)](PF6)2 Catalyst
Y Wu, B Rudshteyn, A Zhanaidarova, JD Froehlich, W Ding, CP Kubiak, ...
ACS Catalysis 7 (8), 5282-5288, 2017
Heterogeneous Molecular Catalysts of Metal Phthalocyanines for Electrochemical CO2 Reduction Reactions
Y Wu, Y Liang, H Wang
Accounts of Chemical Research 54 (16), 3149-3159, 2021
A bio-inspired O2-tolerant catalytic CO2 reduction electrode
X Lu, Z Jiang, X Yuan, Y Wu, R Malpass-Evans, Y Zhong, Y Liang, ...
Science Bulletin 64 (24), 1890-1895, 2019
Unusual Stability of a Bacteriochlorin Electrocatalyst under Reductive Conditions. A Case Study on CO2 Conversion to CO
J Jiang, AJ Matula, JR Swierk, N Romano, Y Wu, VS Batista, RH Crabtree, ...
ACS Catalysis 8 (11), 10131-10136, 2018
The system can't perform the operation now. Try again later.
Articles 1–20