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Coating Robust Layers on Ni-Rich Cathode Active Materials while Suppressing Cation Mixing for All-Solid-State Lithium-Ion Batteries

Authors
Kim, SunminKim, MinjiKu, MijuPark, JunghumLee, JonghyukKim, Young-Beom
Issue Date
Aug-2024
Publisher
American Chemical Society
Keywords
all-solid-state lithium-ion battery; Ni-richcathodeactive material; protective layer; lithium lanthanumtitanate; cation mixing; flash-light sintering
Citation
ACS Nano, v.18, no.36, pp 25096 - 25106
Pages
11
Indexed
SCIE
SCOPUS
Journal Title
ACS Nano
Volume
18
Number
36
Start Page
25096
End Page
25106
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/195362
DOI
10.1021/acsnano.4c06720
ISSN
1936-0851
1936-086X
Abstract
This study focused on addressing the challenges associated with the incompatibility between sulfide solid electrolytes and Ni-rich cathode active materials (CAMs) in all-solid-state lithium-ion batteries. To resolve these issues, protective layers have been explored for Ni-rich materials. Lithium lanthanum titanate (LLTO), a perovskite-type material, is recognized for its excellent chemical stability and ionic conductivity, which render it a potential protective layer in CAMs. However, traditional methods of achieving the perovskite structure involve temperatures exceeding 700 degrees C, resulting in challenges such as LLTO agglomeration, secondary phase formation between LLTO and CAM, and cation mixing within the CAM. In this study, a rapid technique known as flash-light sintering (FLS) was employed to fabricate a uniform and pure perovskite protective layer without inducing cation mixing within the CAM. The LLTO-coated LiNi0.8Co0.1Mn0.1O2 (NCM811) with FLS treatment demonstrated minimal cation mixing and formed a fully covered dense layer. This resulted in a high initial capacity and effectively addressed the incompatibility issues between the sulfide electrolytes and CAM. The rapid FLS method not only streamlines the fabrication of LLTO-coated NCM811 but also provides opportunities for its broader application to materials that were previously deemed impractical because of high sintering temperatures.
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