C
Cheng Wang
Researcher at Tianjin University of Technology
Publications - 50
Citations - 2276
Cheng Wang is an academic researcher from Tianjin University of Technology. The author has contributed to research in topics: Overpotential & Electrocatalyst. The author has an hindex of 14, co-authored 50 publications receiving 1214 citations.
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Chemical and structural origin of lattice oxygen oxidation in Co–Zn oxyhydroxide oxygen evolution electrocatalysts
Zhen-Feng Huang,Jiajia Song,Yonghua Du,Shibo Xi,Shuo Dou,Jean Marie Vianney Nsanzimana,Cheng Wang,Zhichuan J. Xu,Xin Wang +8 more
TL;DR: In this paper, the authors investigated Co-Zn oxyhydroxide electrocatalysts, and suggested that the mechanism depends on the amount of Zn2+ they contain, and found that Zn0.2Co0.8 has the optimum activity.
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An Efficient and Earth-Abundant Oxygen-Evolving Electrocatalyst Based on Amorphous Metal Borides
Jean Marie Vianney Nsanzimana,Yuecheng Peng,Yangyang Xu,Larissa Thia,Cheng Wang,Bao Yu Xia,Xin Wang +6 more
TL;DR: In this article, an amorphous trimetallic boride nanocatalyst (Fe-Co-2.3Ni-B) prepared by a simple approach is reported as a highly efficient oxygen evolution reaction electrocatalyst.
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An Efficient Cobalt Phosphide Electrocatalyst Derived from Cobalt Phosphonate Complex for All-pH Hydrogen Evolution Reaction and Overall Water Splitting in Alkaline Solution.
TL;DR: The excellent activity and long-term stability of the Co-P@PC derives from the synergistic effect between the active cobalt phosphides and the porous P-doped carbon matrix.
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Linkage Effect in the Heterogenization of Cobalt Complexes by Doped Graphene for Electrocatalytic CO 2 Reduction
TL;DR: A systematic study revealed that graphitic sulfoxide and carboxyl dopants of graphene were the efficient binding sites for the immobilization of NapCo through axial coordination and resulted in active Co sites for CO2 reduction.
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Template-free synthesis of multifunctional Co3O4 nanotubes as excellent performance electrode materials for superior energy storage
TL;DR: In this article, multifunctional Co3O4-T nanotubes are successfully constructed via a low-cost and template-free route, which show a tubular structure with mesoporous and hollow interior.