Jin Yi Li
Chinese Academy of Sciences
17 Papers
Jin Yi Li is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Chemistry & Electrolyte. The author has an hindex of 2, co-authored 2 publications.
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Papers
Free-Standing Hollow Carbon Fibers as High-Capacity Containers for Stable Lithium Metal Anodes
TL;DR: In this paper, a light-weight, flexible, and free-standing 3D hollow carbon fiber (3D-HCF) container with high electroactive surface area can significantly reduce local current density and improve the Li deposition behavior.
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In-situ plasticized polymer electrolyte with double-network for flexible solid-state lithium-metal batteries
Hui Duan,Ya-Xia Yin,Xian-Xiang Zeng,Jin Yi Li,Ji Lei Shi,Yang Shi,Rui Wen,Yu-Guo Guo,Li-Jun Wan +8 more
TL;DR: In this paper, an in-situ plasticized flexible solid polymer electrolyte with double-network (DN-SPE) was constructed to control the chain length of the constitutional unit.
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Fabrication of asymmetric bilayer solid-state electrolyte with boosted ion transport enabled by charge-rich space charge layer for -20~70°C lithium metal battery
TL;DR: In this article , a local conjugated polymer solid-state electrolytes nanolayer was formed onto ceramic oxide particles via selective adsorption through an in-situ polymerization process.
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Greatly Recovered Electrochemical Performances of Regenerated Graphite Anode Enabled by an Artificial PMMA Solid Electrolyte Interphase Layer
Haoran Da,Shanshan Pan,Jin Yi Li,Jiaqian Huang,Xuedi Yuan,Haotian Dong,Jiaxin Liu,Haitao Zhang +7 more
TL;DR: In this paper , polymethyl methacrylate (PMMA) is rationally coated onto the SG via a low-temperature polymerization as an artificial solid electrolyte interphase (SEI) layer, which leads to the formation of a homogeneous bilayer structure.
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Exceptional interfacial conduction and LiF interphase for ultralong life PEO-based all-solid-state batteries
Jin Yi Li,Ying-Hua Cai,Fengjie Zhang,Yi Cui,Wenhao Fang,Haoran Da,Haitao Zhang,Suojiang Zhang +7 more
TL;DR: Researchers develop a flexible composite electrolyte for solid-state batteries, achieving exceptional interfacial conduction and ultralong life through a LiF interphase layer, enabling a high critical current density and impressive cycle lifespan of over 3100 cycles.
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