J
Jun Chen
Researcher at Shanghai Jiao Tong University
Publications - 2300
Citations - 100809
Jun Chen is an academic researcher from Shanghai Jiao Tong University. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 136, co-authored 1856 publications receiving 77368 citations. Previous affiliations of Jun Chen include Peking Union Medical College & Nankai University.
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Ambient synthesis of a multifunctional 1D/2D hierarchical Ag–Ag2S nanowire/nanosheet heterostructure with diverse applications
TL;DR: In this article, a new type of unique 1D/2D hierarchical Ag-Ag-S heterostructures is fabricated by an extremely simple solution route under ambient conditions.
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Shock-induced plasticity in semi-coherent {111} Cu-Ni multilayers
TL;DR: In this paper, the authors present a systematic investigation on shock-induced plasticity in semi-coherent Cu-Ni multilayers using atomistic simulations, dislocation dynamics modeling and continuum elastic-plastic stress wave theory.
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Preparation of novel ultrafine fibers based on DNA and poly(ethylene oxide) by electrospinning from aqueous solutions
TL;DR: In this article, DNA/Polyethyleneoxide (PEO) electrospun fibers were obtained from aqueous solution and key solution properties related to electrospinning: conductivity, surface tension and viscosity were determined.
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Complex dynamics of correlated electrons in molecular double ionization by an ultrashort intense laser pulse
TL;DR: A semiclassical quasistatic model is used to achieve insight into the complex dynamics of two correlated electrons under the combined influence of a two-center Coulomb potential and an intense laser field.
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Controllable S-Vacancies of monolayered Mo–S nanocrystals for highly harvesting lithium storage
Linlin Fan,Shulai Lei,Hirbod Maleki Kheimeh Sari,Longsheng Zhong,Alibek Kakimov,Jingjing Wang,Jun Chen,Dezheng Liu,Liang Huang,Junhua Hu,Liangxu Lin,Liangxu Lin,Xifei Li +12 more
TL;DR: In this paper, the authors demonstrate how monolayered molybdenum sulfide (Mo-S) NCs with S vacancies perform as a promising anode material to improve many aspects of lithium-ion batteries, by utilizing their metallicity, multi-layer adsorption, minimized self-discharge and fast 2D capacitive processes.