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Shiming Zhou
Researcher at University of Science and Technology of China
Publications - 93
Citations - 3329
Shiming Zhou is an academic researcher from University of Science and Technology of China. The author has contributed to research in topics: Ferromagnetism & Antiferromagnetism. The author has an hindex of 28, co-authored 92 publications receiving 2360 citations.
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Journal ArticleDOI
Engineering electrocatalytic activity in nanosized perovskite cobaltite through surface spin-state transition.
Shiming Zhou,Xianbing Miao,Xu Zhao,Chao Ma,Yuhao Qiu,Zhenpeng Hu,Zhenpeng Hu,Jiyin Zhao,Lei Shi,Jie Zeng +9 more
TL;DR: A facile method is demonstrated to engineer the eg filling of perovskite cobaltite LaCoO3 for improving the oxygen evolution reaction activity, comparable to those of recently reported cobalt oxides with eg∼1.2 configurations.
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Electrochemical deposition as a universal route for fabricating single-atom catalysts.
Zhirong Zhang,Chen Feng,Chunxiao Liu,Ming Zuo,Lang Qin,Xupeng Yan,Yulin Xing,Hongliang Li,Rui Si,Shiming Zhou,Jie Zeng +10 more
TL;DR: Electrochemical deposition is reported as a universal approach for the fabrication of single-atom catalysts over range of metals and supports for the Fabrication of SACs.
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Engineering the Electrical Conductivity of Lamellar Silver-Doped Cobalt(II) Selenide Nanobelts for Enhanced Oxygen Evolution.
TL;DR: A versatile partial cation exchange method to fabricate lamellar Ag-CoSe2 nanobelts with controllable conductivity is demonstrated and represents a rational design of efficient electrocatalysts through finely tuning their electrical conductivities.
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Mono-Mercury Doping of Au25 and the HOMO/LUMO Energies Evaluation Employing Differential Pulse Voltammetry
Lingwen Liao,Shiming Zhou,Yafei Dai,Liren Liu,Chuanhao Yao,Cen-Feng Fu,Jinlong Yang,Zhikun Wu +7 more
TL;DR: A monodisperse bimetal nanoparticle is synthesized in 25% yield (on gold atom basis) by an unusual replacement method based on differential pulse voltammetry based on previous calculations.
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Conductive Tungsten Oxide Nanosheets for Highly Efficient Hydrogen Evolution.
Tingting Zheng,Wei Sang,Zhihai He,Qiushi Wei,Bowen Chen,Hongliang Li,Cong Cao,Ruijie Huang,Xupeng Yan,Bicai Pan,Shiming Zhou,Jie Zeng +11 more
TL;DR: This work designs a highly efficient hydrogen evolution electrocatalyst via introducing oxygen vacancies into WO3 nanosheets and opens an effective route to develop conductive tungsten oxide as a potential alternative to the state-of-the-art platinum for hydrogen evolution.