M
Mingpeng Yu
Researcher at University of Science and Technology Beijing
Publications - 53
Citations - 3486
Mingpeng Yu is an academic researcher from University of Science and Technology Beijing. The author has contributed to research in topics: Graphene & Electrode. The author has an hindex of 25, co-authored 51 publications receiving 3085 citations. Previous affiliations of Mingpeng Yu include Tsinghua University & Rensselaer Polytechnic Institute.
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High-rate lithiation-induced reactivation of mesoporous hollow spheres for long-lived lithium-ion batteries
TL;DR: The mechanical degradation on cycling can be deliberately controlled to finely tune mesoporous structure of the metal oxide sphere and optimize stable solid-electrolyte interface by high-rate lithiation-induced reactivation, which offers a new perspective in designing high-performance electrodes for long-lived lithium-ion batteries.
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Flexible Pillared Graphene-Paper Electrodes for High-Performance Electrochemical Supercapacitors
Gongkai Wang,Xiang Sun,Fengyuan Lu,Hongtao Sun,Mingpeng Yu,Weilin Jiang,Changsheng Liu,Jie Lian +7 more
TL;DR: Flexible graphene paper (GP) pillared by carbon black (CB) nanoparticles using a simple vacuum filtration method is developed as a high-performance electrode material for supercapacitors that exhibit excellent electrochemical performances and cyclic stabilities.
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Atomic layer deposited TiO2 on a nitrogen-doped graphene/sulfur electrode for high performance lithium–sulfur batteries
Mingpeng Yu,Mingpeng Yu,Junsheng Ma,Hongquan Song,Aiji Wang,Fuyang Tian,Yinshu Wang,Hong Qiu,Rongming Wang +8 more
TL;DR: In this paper, Nitrogen-doped graphene (NG) has been used as a carbon matrix for sulfur impregnation to construct cathodes for lithium-sulfur (Li-S) batteries.
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Graphene materials for lithium–sulfur batteries
TL;DR: In this article, a review article summarizes the recent achievements on graphene-based Li-S batteries, focusing on the applications of graphene materials in sulfur positive electrodes, lithium negative electrodes, and as interlayers.
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Morphology controlled high performance supercapacitor behaviour of the Ni–Co binary hydroxide system
TL;DR: In this paper, the morphology evolution of Ni-Co binary hydroxides was studied varying from nanosheets, to nanoplate-nanospheres, to nanorods and to a nanoparticle geometry by simply controlling the Co:Ni ratio in the initial reactant.