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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Functional materials with high-efficiency energy storage and conversion for batteries and fuel cells
TL;DR: In this paper, the crystal structures and properties of functional materials applied in electrochemical energy storage and conversion systems with selected primary and secondary batteries and hydrogen fuel cells are discussed, and the advantages and disadvantages involved in the batteries and fuel cells using functional materials are also discussed.
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Nano-Carbon Electrodes for Thermal Energy Harvesting.
Mark S. Romano,Joselito M. Razal,Joselito M. Razal,Dennis Antiohos,Gordon G. Wallace,Jun Chen +5 more
TL;DR: This review discusses the developments in thermogalvanic systems attained through the use of nano-carbons as the electrode materials and advances in cell design and electrode configuration that improve performance of these thermo converters and make them applicable in a variety of environments.
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A‑site Cation Engineering for Highly Efficient MAPbI 3 Single‑Crystal X‑ray Detector
Yanmin Huang,Lu Qiao,Yuanzhi Jiang,Tingwei He,Run Long,Fan Yang,Lin Wang,Xiaojuan Lei,Mingjian Yuan,Jun Chen +9 more
TL;DR: The overall detect performance confirms GAMAPbI3 SCs to be one of the most sensitive perovskite X-ray detectors to date.
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Survivin enhances Aurora-B kinase activity and localizes Aurora-B in human cells.
Jun Chen,Sha Jin,Stephen K. Tahir,Haichao Zhang,Xuesong Liu,Aparna Sarthy,Thomas McGonigal,Zhihong Liu,Saul H. Rosenberg,Shi-Chung Ng +9 more
TL;DR: It is demonstrated that in the presence ofsurvivin, Aurora-B phosphorylates histone H3 much more efficiently than in the absence of survivin in a cell-free system, thus providing a mechanism as to how survivin exerts its function in human cells.
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Pitaya-like Sn@C nanocomposites as high-rate and long-life anode for lithium-ion batteries
TL;DR: High-rate performance is owing to the fact that the ultrasmall tin nanoparticles can effectively alleviate the absolute stress/strain during the lithiation/delithiation process and that the uniformly embedded nanoparticles in the stable carbon framework can accommodate the large volume change with a buffering effect to prevent Sn nanoparticles from aggregating.