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
Synergistic alloying effect on microstructural evolution and mechanical properties of Cu precipitation-strengthened ferritic alloys
Y.R. Wen,Yunping Li,Akihiko Hirata,Yan Zhang,Takeshi Fujita,Tadashi Furuhara,C.T. Liu,Akihiko Chiba,Mingwei Chen,Mingwei Chen +9 more
TL;DR: In this article, the influence of alloying elements (Ni, Al and Mn) on the microstructural evolution of Cu-rich nanoprecipitates and the mechanical properties of Fe-Cu-based ferritic alloys was reported.
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A nanoscale co-precipitation approach for property enhancement of Fe-base alloys
Zhongwu Zhang,Zhongwu Zhang,Zhongwu Zhang,C.T. Liu,Michael K Miller,Xun-Li Wang,Yuren Wen,Takeshi Fujita,Akihiko Hirata,Mingwei Chen,Guang Chen,Bryan A. Chin +11 more
TL;DR: This study provides compelling experimental evidence that these nanoscale co-precipitates consist of a Cu-enriched bcc core partially encased by a B2-ordered Ni(Mn, Al) phase, resulting in a high yield strength alloy without sacrificing alloy ductility.
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Enhanced Superconductivity in Restacked TaS2 Nanosheets
Jie Pan,Chenguang Guo,Chenguang Guo,Changsheng Song,Xiaofang Lai,Hui Li,Wei Zhao,Hui Zhang,Gang Mu,Kejun Bu,Kejun Bu,Tianquan Lin,Xiaoming Xie,Mingwei Chen,Mingwei Chen,Fuqiang Huang,Fuqiang Huang +16 more
TL;DR: Density functional theory calculations indicate that increase and delocalization of electron states near the Fermi surface due to the homogeneous interfaces effects could account for the enhanced superconductivity.
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Nanoporous gold for enzyme-free electrochemical glucose sensors
TL;DR: In this paper, the detection of non-enzyme electrochemical glucose using nanoporous gold (NPG) as electrodes was reported, and the free-standing NPG films showed a robust and sensitive current response to glucose.
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A Potent and Selective AMPK Activator That Inhibits de Novo Lipogenesis.
Jorge Gomez-Galeno,Qun Dang,Thanh H Nguyen,Serge H. Boyer,Matthew P. Grote,Zhili Sun,Mingwei Chen,William Craigo,Paul D. van Poelje,Deidre A. MacKenna,Edward Earl Cable,Paul A. Rolzin,Patricia D. Finn,Bert Chi,David L. Linemeyer,Scott J. Hecker,Mark D. Erion +16 more
TL;DR: Screening of a proprietary library of AMP mimetics identified the phosphonic acid 2 that bears little structural resemblance to AMP but is capable of activating AMPK with high potency and specificity and represents potential drug candidates for the treatment of hyperlipidemia and type 2 diabetes.