Functionalized Sulfide Solid Electrolyte with Air-Stable and Chemical-Resistant Oxysulfide Nanolayer for All-Solid-State Batteries

Authors
Jung, Wo DumJeon, MinjaeShin, Sung SooKim, Ji-SuJung, Hun-GiKim, Byung-KookLee, Jong-HeunChung, Yong-ChaeKim, Hyoungchul
Issue Date
2020-10-13
Publisher
AMER CHEMICAL SOC
Citation
ACS OMEGA, v.5, no.40, pp.26015 - 26022
Abstract
Sulfide solid electrolytes (SEs) with high Li-ion conductivities (sigma(ion)) and soft mechanical properties have limited applications in wet casting processes for commercial all-solid-state batteries (ASSBs) because of their inherent atmospheric and chemical instabilities. In this study, we fabricated sulfide SEs with a novel core-shell structure via environmental mechanical alloying, while providing sufficient control of the partial pressure of oxygen. This powder possesses notable atmospheric stability and chemical resistance because it is covered with a stable oxysulfide nanolayer that prevents deterioration of the bulk region. The core-shell SEs showed a sigma(ion) of more than 2.50 mS cm(-1) after air exposure (for 30 min) and reaction with slurry chemicals (mixing and drying for 31 min), which was approximately 82.8% of the initial sigma(ion). The ASSB cell fabricated through wet casting provided an initial discharge capacity of 125.6 mAh g(-1). The core-shell SEs thus exhibited improved powder stability and reliability in the presence of chemicals used in various wet casting processes for commercial ASSBs.
Keywords
IONIC-CONDUCTIVITY; STABILITY; SELECTION; GLASSES; IONIC-CONDUCTIVITY; STABILITY; SELECTION; GLASSES; solid electrolyte; sulfide; environmental mechanical alloying; core-shell structure; all-solid-state battery
ISSN
2470-1343
URI
https://pubs.kist.re.kr/handle/201004/117997
DOI
10.1021/acsomega.0c03453
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KIST Article > 2020
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