Revealing the Influence of Surface Microstructure on Li Wettability and Interfacial Ionic Transportation for Garnet‐Type Electrolytes (Adv. Energy Mater. 21/2023).

Authors :: Ji, Weijie
Luo, Bi
Wang, Qi
Yu, Guihui
Liu, Zihang
Zhao, Zaowen
Zhao, Ruirui
Wang, Shubin
Wang, Xiaowei
Zhang, Bao
Zhang, Jiafeng
Hou, Feng
Liang, Ji
Source :: Advanced Energy Materials. 6/2/2023, Vol. 13 Issue 21, p1-1. 1p.
Publication Year :: 2023
Abstract: Keywords: interfacial wettability; lithium metal batteries; solid-state batteries; surface microstructure EN interfacial wettability lithium metal batteries solid-state batteries surface microstructure 1 1 1 06/06/23 20230602 NES 230602 B Lithium Metal Anodes b In article number 2300165, Xiaowei Wang, Jiafeng Zhang, Ji Liang, and co-workers present an innovative "surface microstructure optimization" approach to improve the interface contact between solid-state electrolytes and lithium metal anodes. Interfacial wettability, lithium metal batteries, solid-state batteries, surface microstructure Revealing the Influence of Surface Microstructure on Li Wettability and Interfacial Ionic Transportation for Garnet-Type Electrolytes (Adv. [Extracted from the article]

Subjects :: *GARNET
*WETTING
*MICROSTRUCTURE
*ELECTROLYTES
*IONIC conductivity
*SOLID electrolytes
*LITHIUM cells

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