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Tao Cheng (程涛)
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Ultrafine jagged platinum nanowires enable ultrahigh mass activity for the oxygen reduction reaction
M Li, Z Zhao, T Cheng, A Fortunelli, CY Chen, R Yu, Q Zhang, L Gu, ...
Science 354 (6318), 1414-1419, 2016
13742016
Single-atom tailoring of platinum nanocatalysts for high-performance multifunctional electrocatalysis
M Li, K Duanmu, C Wan, T Cheng, L Zhang, S Dai, W Chen, Z Zhao, P Li, ...
Nature Catalysis 2 (6), 495-503, 2019
4862019
Full atomistic reaction mechanism with kinetics for CO reduction on Cu (100) from ab initio molecular dynamics free-energy calculations at 298 K
T Cheng, H Xiao, WA Goddard III
Proceedings of the National Academy of Sciences 114 (8), 1795-1800, 2017
4832017
Cu metal embedded in oxidized matrix catalyst to promote CO2 activation and CO dimerization for electrochemical reduction of CO2
H Xiao, WA Goddard III, T Cheng, Y Liu
Proceedings of the National Academy of Sciences 114 (26), 6685-6688, 2017
4452017
Mechanistic explanation of the pH dependence and onset potentials for hydrocarbon products from electrochemical reduction of CO on Cu (111)
H Xiao, T Cheng, WA Goddard III, R Sundararaman
Journal of the American Chemical Society 138 (2), 483-486, 2016
4262016
Subsurface oxide plays a critical role in CO2 activation by Cu(111) surfaces to form chemisorbed CO2, the first step in reduction of CO2
M Favaro, H Xiao, T Cheng, WA Goddard III, J Yano, EJ Crumlin
Proceedings of the National Academy of Sciences 114 (26), 6706-6711, 2017
4152017
Atomistic Mechanisms Underlying Selectivities in C1 and C2 Products from Electrochemical Reduction of CO on Cu(111)
H Xiao, T Cheng, WA Goddard III
Journal of the American Chemical Society 139 (1), 130-136, 2017
3582017
Reaction Mechanisms for the Electrochemical Reduction of CO2 to CO and Formate on the Cu(100) Surface at 298 K from Quantum Mechanics Free Energy …
T Cheng, H Xiao, WA Goddard III
Journal of the American Chemical Society 138 (42), 13802-13805, 2016
3522016
Highly active and stable stepped Cu surface for enhanced electrochemical CO2 reduction to C2H4
C Choi, S Kwon, T Cheng, M Xu, P Tieu, C Lee, J Cai, HM Lee, X Pan, ...
Nature catalysis 3 (10), 804-812, 2020
3142020
Explanation of dramatic pH-dependence of hydrogen binding on noble metal electrode: Greatly weakened water adsorption at high pH
T Cheng, L Wang, BV Merinov, WA Goddard III
Journal of the American Chemical Society 140 (25), 7787-7790, 2018
2682018
Formation of carbon–nitrogen bonds in carbon monoxide electrolysis
M Jouny, JJ Lv, T Cheng, BH Ko, JJ Zhu, WA Goddard III, F Jiao
Nature Chemistry 11 (9), 846-851, 2019
2452019
Free-energy barriers and reaction mechanisms for the electrochemical reduction of CO on the Cu (100) surface, including multiple layers of explicit solvent at pH 0
T Cheng, H Xiao, WA Goddard III
The journal of physical chemistry letters 6 (23), 4767-4773, 2015
2362015
Ultrahigh mass activity for carbon dioxide reduction enabled by gold–iron core–shell nanoparticles
K Sun, T Cheng, L Wu, Y Hu, J Zhou, A Maclennan, Z Jiang, Y Gao, ...
Journal of the American Chemical Society 139 (44), 15608-15611, 2017
2132017
Te-doped Pd nanocrystal for electrochemical urea production by efficiently coupling carbon dioxide reduction with nitrite reduction
Y Feng, H Yang, Y Zhang, X Huang, L Li, T Cheng, Q Shao
Nano Letters 20 (11), 8282-8289, 2020
2012020
Electrochemical CO reduction builds solvent water into oxygenate products
Y Lum, T Cheng, WA Goddard III, JW Ager
Journal of the American Chemical Society 140 (30), 9337-9340, 2018
1862018
Atomistic explanation of shear-induced amorphous band formation in boron carbide
Q An, WA Goddard III, T Cheng
Physical review letters 113 (9), 095501, 2014
1752014
Weakening hydrogen adsorption on nickel via interstitial nitrogen doping promotes bifunctional hydrogen electrocatalysis in alkaline solution
T Wang, M Wang, H Yang, M Xu, C Zuo, K Feng, M Xie, J Deng, J Zhong, ...
Energy & Environmental Science 12 (12), 3522-3529, 2019
1742019
Alloying nickel with molybdenum significantly accelerates alkaline hydrogen electrocatalysis
M Wang, H Yang, J Shi, Y Chen, Y Zhou, L Wang, S Di, X Zhao, J Zhong, ...
Angewandte Chemie 133 (11), 5835-5841, 2021
1732021
Nature of the active sites for CO reduction on copper nanoparticles; suggestions for optimizing performance
T Cheng, H Xiao, WA Goddard
Journal of the American Chemical Society 139 (34), 11642-11645, 2017
1642017
Electrocatalysis at Organic–Metal Interfaces: Identification of Structure–Reactivity Relationships for CO2 Reduction at Modified Cu Surfaces
AK Buckley, M Lee, T Cheng, RV Kazantsev, DM Larson, WA Goddard III, ...
Journal of the American Chemical Society 141 (18), 7355-7364, 2019
1442019
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