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Bo Wen
Researcher at Wuhan University of Technology
Publications - 13
Citations - 728
Bo Wen is an academic researcher from Wuhan University of Technology. The author has contributed to research in topics: Catalysis & Overpotential. The author has an hindex of 9, co-authored 13 publications receiving 250 citations.
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Journal ArticleDOI
Comprehensive Understandings into Complete Reconstruction of Precatalysts: Synthesis, Applications, and Characterizations.
TL;DR: This review systematically summarizes several important advances in complete reconstruction for the first time, which includes fundamental understandings of complete reconstruction, the characteristics and advantages of completely reconstructed catalysts, and their design principles.
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Reconstruction-Determined Alkaline Water Electrolysis at Industrial Temperatures.
Xiong Liu,Ruiting Guo,Kun Ni,Fanjie Xia,Chaojiang Niu,Bo Wen,Jiashen Meng,Peijie Wu,Jinsong Wu,Xiaojun Wu,Liqiang Mai +10 more
TL;DR: New reconstruction phenomenon of pre-catalysts under realistic conditions and exceptional durability of CR catalysts toward practical high-temperature AWE are uncovered.
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Deep Reconstruction of Nickel-Based Precatalysts for Water Oxidation Catalysis
Xiong Liu,Kun Ni,Bo Wen,Ruiting Guo,Chaojiang Niu,Jiashen Meng,Qi Li,Peijie Wu,Yanwu Zhu,Xiaojun Wu,Liqiang Mai +10 more
TL;DR: OER-induced reconstruction on precatalysts generally results in surface-reconstructed catalysts with less active species and thus low mass activity as mentioned in this paper, which is the deeply r...
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Complete Reconstruction of Hydrate Pre-Catalysts for Ultrastable Water Electrolysis in Industrial-Concentration Alkali Media
Xiong Liu,Jiashen Meng,Kun Ni,Ruiting Guo,Fanjie Xia,Jingjing Xie,Xu Li,Bo Wen,Peijie Wu,Ming Li,Jinsong Wu,Xiaojun Wu,Liqiang Mai,Dongyuan Zhao,Dongyuan Zhao +14 more
TL;DR: In this paper, the geometric/phase structure of hydrate molybdates at oxidized potentials was captured by multi-angle electron tomography and the key to complete reconstruction is the multicomponent co-leaching-induced loose reconstruction layer, conductive to solution penetration and mass transport.
Journal ArticleDOI
Engineering Mesoporous Structure in Amorphous Carbon Boosts Potassium Storage with High Initial Coulombic Efficiency
TL;DR: A facile self-etching strategy was used to obtain mesoporous carbon (meso-C) nanowires with zinc-catalyzed short-range ordered structure, and a new perspective is provided that mesopores engineering can effectively accelerate K + diffusion and enhance K + adsorption/intercalation storage.