S
Sheng Chen
Researcher at City University of Hong Kong
Publications - 451
Citations - 26030
Sheng Chen is an academic researcher from City University of Hong Kong. The author has contributed to research in topics: Plasmid & Chemistry. The author has an hindex of 62, co-authored 384 publications receiving 20611 citations. Previous affiliations of Sheng Chen include East China University of Science and Technology & Fujian Medical University.
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Graphene Oxide−MnO2 Nanocomposites for Supercapacitors
TL;DR: This method provides a facile and straightforward approach to deposit MnO(2) nanoparticles onto the graphene oxide sheets (single layer of graphite oxide) and may be readily extended to the preparation of other classes of hybrids based on GO sheets for technological applications.
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Boron-doped carbon nanotubes as metal-free electrocatalysts for the oxygen reduction reaction.
Lijun Yang,Shujuan Jiang,Yu Zhao,Lei Zhu,Sheng Chen,Xizhang Wang,Qiang Wu,Jing Ma,Yanwen Ma,Yanwen Ma,Zheng Hu +10 more
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Ultrathin metal-organic framework array for efficient electrocatalytic water splitting.
TL;DR: This work fabricates a nickel-iron-based metal-organic framework array, which demonstrates superior electrocatalytic performance towards oxygen evolution reaction with a small overpotential, and robust operation for 20,000s with no detectable activity decay, and demonstrates the promise of these electrodes for other important catalytic reactions including hydrogen evolution reaction and overall water splitting.
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Can Boron and Nitrogen Co-doping Improve Oxygen Reduction Reaction Activity of Carbon Nanotubes?
Yu Zhao,Lijun Yang,Sheng Chen,Xizhang Wang,Yanwen Ma,Qiang Wu,Yufei Jiang,Weijin Qian,Zheng Hu +8 more
TL;DR: Experimental and theoretical results indicate that the bonded case cannot, while the separated one can, turn the inert CNTs into ORR electrocatalysts, demonstrating the crucial role of the doping microstructure on ORR performance.
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Heteroatom-Doped Graphene-Based Materials for Energy-Relevant Electrocatalytic Processes
TL;DR: In this paper, the authors provide a concise appraisal on graphene doping methods, possible doping configurations and their unique electrochemical properties, including single and double doping with N, B, S, and P. In addition, three-dimensional heteroatom-doped graphene structures have been discussed, and those especially can be directly utilized as catalyst electrodes without extra binders and s.