L
Lei Liu
Researcher at Shanghai Jiao Tong University
Publications - 144
Citations - 3008
Lei Liu is an academic researcher from Shanghai Jiao Tong University. The author has contributed to research in topics: Corrosion & Coating. The author has an hindex of 24, co-authored 132 publications receiving 2061 citations. Previous affiliations of Lei Liu include Arizona State University.
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Electrochemical surface passivation of LiCoO 2 particles at ultrahigh voltage and its applications in lithium-based batteries
TL;DR: A class of ternary lithium, aluminum, fluorine-modified lithium cobalt oxide with a stable and conductive layer using a facile and scalable hydrothermal-assisted, hybrid surface treatment is shown.
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Graphene–nickel composites
TL;DR: Graphene/nickel composites were prepared by electrodeposition in a nickel sulfamate solution with graphene oxide (GO) sheets in suspension as discussed by the authors, which showed the thermal conductivity of the composites to be about 15% more than that of pure nickel electrodeposits.
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Enabling Stable Lithium Metal Anode via 3D Inorganic Skeleton with Superlithiophilic Interphase
Lei Fan,Siyuan Li,Lei Liu,Weidong Zhang,Lina Gao,Yao Fu,Fang Chen,Jing Li,Houlong L. Zhuang,Yingying Lu +9 more
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The friction and wear of electroless Ni–P matrix with PTFE and/or SiC particles composite
TL;DR: In this paper, the friction behavior and wear mechanism of Ni-P matrix composites with PTFE and/or SiC particles composite coating are investigated by virtue of ring-on-disk wear machine at a high load of 150 N.
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Room-Temperature Synthesis of 2D Janus Crystals and their Heterostructures.
Dipesh B. Trivedi,Guven Turgut,Ying Qin,Mohammed Sayyad,Debarati Hajra,Madeleine Howell,Lei Liu,Sijie Yang,Naim Hossain Patoary,Han Li,Marko M. Petrić,Moritz Meyer,Malte Kremser,Matteo Barbone,Giancarlo Soavi,Andreas V. Stier,Kai Müller,Shize Yang,Ivan Sanchez Esqueda,Houlong L. Zhuang,Jonathan J. Finley,Sefaattin Tongay +21 more
TL;DR: A room-temperature technique for the synthesis of a variety of Janus monolayers with high structural and optical quality is reported, and this process involves low-energy reactive radical precursors, which enables selective removal and replacement of the uppermost chalcogen layer, thus transforming classical transition metal dichalCogenides into a Janus structure.