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Wei Zhang
Researcher at Chinese Academy of Sciences
Publications - 1643
Citations - 58115
Wei Zhang is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Computer science & Amorphous metal. The author has an hindex of 96, co-authored 1404 publications receiving 43392 citations. Previous affiliations of Wei Zhang include University of Surrey & Southern Medical University.
Papers
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Comparative study of the effects of PM1-induced oxidative stress on autophagy and surfactant protein B and C expressions in lung alveolar type II epithelial MLE-12 cells.
TL;DR: PM1, particularly PM1 with high concentrations of transition metals, such as Fe, Cu and Mn, induces oxidative damage and autophagy, as well as inhibits surfactant protein B and C expressions in lung alveolar type II epithelial cells.
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Optimal Multi-Agent Coordination Under Tree Formation Constraints
Wei Zhang,Jianghai Hu +1 more
TL;DR: The optimal centralized coordinated motions derived in this paper will yield a performance lower bound for those generated by decentralized algorithms.
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Generation of group B soyasaponins I and III by hydrolysis.
TL;DR: A method that maximizes the recovery of DDMP-conjugated saponins and uses alkaline hydrolysis to produce an extract containing mainly soyasaponins I and III is developed.
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Active Sites of Single-Atom Iron Catalyst for Electrochemical Hydrogen Evolution.
Lan Wang,Lan Wang,Xiaokang Liu,Linlin Cao,Wei Zhang,Tao Chen,Tao Chen,Yue Lin,Huijuan Wang,Yi Wang,Tao Yao +10 more
TL;DR: In insight into the structural evolution of the active site under the alkaline HER, Operando X-ray absorption spectroscopy reveals that the evolved single-atom Fe site with more d electrons provides a favorable structure for boosting HER performance.
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Osteogenesis stimulation by copper-containing 316L stainless steel via activation of akt cell signaling pathway and Runx2 upregulation
TL;DR: 316L-Cu SS stimulates osteogenesis through activation of the Akt cell signaling pathway and the upregulation of Runx2, and is a promising material that may be used in surgical implants to stimulate osteogenesis.