Manman Wang
Wuhan University of Technology
6 Papers
Manman Wang is an academic researcher from Wuhan University of Technology. The author has contributed to research in topics: Oxygen evolution & Overpotential. The author has an hindex of 6, co-authored 6 publications. Previous affiliations of Manman Wang include University of Surrey.
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Papers
Low-Crystalline Bimetallic Metal–Organic Framework Electrocatalysts with Rich Active Sites for Oxygen Evolution
Jiantao Li,Wenzhong Huang,Manman Wang,Shibo Xi,Jiashen Meng,Kangning Zhao,Jun Jin,Wangwang Xu,Zhaoyang Wang,Xiong Liu,Qiang Chen,Linhan Xu,Xiaobin Liao,Yalong Jiang,Kwadwo Asare Owusu,Benli Jiang,Chuanxi Chen,Danian Fan,Liang Zhou,Liqiang Mai +19 more
TL;DR: In this paper, low-crystalline bimetallic transition metal-organic frameworks (MOFs) are constructed via inducing exotic metal ions, and the formation process is revealed by experimental and theoretical methods.
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Metal–organic framework derived carbon-confined Ni2P nanocrystals supported on graphene for an efficient oxygen evolution reaction
Manman Wang,Mengting Lin,Jiantao Li,Lei Huang,Zechao Zhuang,Chao Lin,Liang Zhou,Liqiang Mai,Liqiang Mai +8 more
TL;DR: Metal-organic framework derived carbon-confined Ni2P nanocrystals supported on graphene with high effective surface area, more exposed active sites, and enhanced charge transport were successfully designed and shows excellent oxygen evolution reaction performance.
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Ni/Fe based bimetallic coordination complexes with rich active sites for efficient oxygen evolution reaction
Wenzhong Huang,Chuanxi Chen,Zhaohong Ling,Jiantao Li,Longbing Qu,Jiexin Zhu,Wei Yang,Manman Wang,Kwadwo Asare Owusu,Ling Qin,Liang Zhou,Liqiang Mai +11 more
TL;DR: In this article, Ni/Fe based bimetallic MCCs with hybrid ligands are successfully constructed, with rich active sites residing in nanocrystal boundaries, bimetallic synergistic effect, and quick mass transfer derived from the nanosheet-like structure.
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Boosting oxygen reduction activity with low-temperature derived high-loading atomic cobalt on nitrogen-doped graphene for efficient Zn-air batteries.
Jiantao Li,Haoyun Liu,Manman Wang,Chao Lin,Wei Yang,Jiashen Meng,Yanan Xu,Kwadwo Asare Owusu,Benli Jiang,Chuanxi Chen,Danian Fan,Liang Zhou,Liqiang Mai +12 more
TL;DR: High-loading atomic cobalt dispersed on nitrogen-doped graphene was successfully synthesized via considerably low temperature pyrolysis and exhibits excellent electrocatalytic performance towards the oxygen reduction reaction with a large limiting diffusion current density.
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