M
Mingwei Chen
Researcher at Johns Hopkins University
Publications - 1108
Citations - 63568
Mingwei Chen is an academic researcher from Johns Hopkins University. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 108, co-authored 536 publications receiving 51351 citations. Previous affiliations of Mingwei Chen include National Taiwan University & Chiba University.
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Journal ArticleDOI
A Phthalocyanine-Based Layered Two-Dimensional Conjugated Metal-Organic Framework as a Highly Efficient Electrocatalyst for the Oxygen Reduction Reaction.
Haixia Zhong,Khoa H. Ly,Mingchao Wang,Yulia Krupskaya,Xiaocang Han,Jichao Zhang,Jian Zhang,Vladislav Kataev,Bernd Büchner,Inez M. Weidinger,Stefan Kaskel,Pan Liu,Mingwei Chen,Mingwei Chen,Renhao Dong,Xinliang Feng +15 more
TL;DR: A copper-phthalocyanine-based 2D conjugated MOF with square planar cobalt-bis(dihydroxy) complexes as linkages and layer-stacked structures via solvothermal synthesis, supported by in-situ Raman spectro-electrochemistry and theoretical modelling as well as contrast catalytic tests.
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Three-dimensional morphology of nanoporous gold
TL;DR: In this article, a transmission electron tomography of nanoporous gold fabricated by chemically dealloying Au35Ag65 films is presented, where a number of algorithms are employed to quantitatively characterize the complex three-dimensional nanoporous structure.
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Metal and Nonmetal Codoped 3D Nanoporous Graphene for Efficient Bifunctional Electrocatalysis and Rechargeable Zn–Air Batteries
Hua-Jun Qiu,Peng Du,Kailong Hu,Jiaojiao Gao,Huanglong Li,Pan Liu,Toshiaki Ina,Koji Ohara,Yoshikazu Ito,Mingwei Chen +9 more
TL;DR: The free-standing Ni,N codoped 3D np-graphene shows great potential as an economical catalyst/electrode for metal-air batteries.
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High‐Quality Three‐Dimensional Nanoporous Graphene
Yoshikazu Ito,Yoichi Tanabe,H.-J. Qiu,Katsuaki Sugawara,Satoshi Heguri,Ngoc Han Tu,Khuong Kim Huynh,Takeshi Fujita,Takashi Takahashi,Katsumi Tanigaki,Mingwei Chen,Mingwei Chen +11 more
TL;DR: The free-standing, large-scale nanoporous graphene with 2D electronic properties and high electron mobility holds great promise for practical applications in 3D electronic devices.
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Effect of defects on fracture strength of graphene sheets
TL;DR: In this article, the fracture strength of a hexagonal monolayer network of carbon atoms with Stone-Wales type defects and vacancies was investigated using molecular dynamics simulations at different temperatures.