M
Meiqiang Fan
Researcher at China Jiliang University
Publications - 82
Citations - 2417
Meiqiang Fan is an academic researcher from China Jiliang University. The author has contributed to research in topics: Hydrogen & Hydrogen production. The author has an hindex of 23, co-authored 72 publications receiving 1981 citations. Previous affiliations of Meiqiang Fan include Chinese Academy of Sciences & Dalian Institute of Chemical Physics.
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Bimetallic nickel cobalt selenides: a new kind of electroactive material for high-power energy storage
TL;DR: In this article, bimetallic Ni-Co selenides with different Ni and Co ratios have been synthesized and used as electrode materials for high-power energy storage, showing higher specific capacity and improved rate capability combined with excellent cycling stability than monometallic Ni or Co selenide.
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Studies on hydrogen generation characteristics of hydrolysis of the ball milling Al-based materials in pure water
TL;DR: In this article, a series of Al-based materials were prepared by ball milling and/or melting, and the results showed that mechanical milling was more favorable than the melting method to synthesize the Al alloys containing some metals with lower melting point and easier vaporization in the melting process.
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One-pot synthesis of hollow NiSe–CoSe nanoparticles with improved performance for hybrid supercapacitors
Haichao Chen,Meiqiang Fan,Chao Li,Tian Guanglei,Chunju Lv,Da Chen,Kangying Shu,Jianjun Jiang +7 more
TL;DR: In this article, a one-pot solvothermal approach was used to synthesize NiSe−CoSe nanoparticles with different NiSe to CoSe ratios but with a similar hollow structure.
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LiBH4 nanoparticles supported by disordered mesoporous carbon: Hydrogen storage performances and destabilization mechanisms
Yao Zhang,Wansheng Zhang,Aiqin Wang,Lixian Sun,Meiqiang Fan,Hailiang Chu,Juncai Sun,Tao Zhang +7 more
TL;DR: LiBH 4 nanoparticles supported by disordered mesoporous carbon CMK-3, denoted as nano- LiBH4 / C mesoporus, were synthesized in the present work.
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Strong synergetic electrochemistry between transition metals of α phase Ni−Co−Mn hydroxide contributed superior performance for hybrid supercapacitors
TL;DR: In this paper, a hybrid supercapacitor based on NiCoMn−OH with a flower-like structure is synthesized and used as the battery materials for hybrid super-capacitors.