期刊
MATERIALS FUTURES
卷 1, 期 1, 页码 -出版社
IOP Publishing Ltd
DOI: 10.1088/2752-5724/ac3897
关键词
solid-state battery; slurry casting; lithium thiophosphate electrolyte; Ni-rich NCM cathode; degradation
资金
- This study was supported by BASF SE. F Strauss acknowledges financial support from the Fonds der Chemischen Industrie through a Liebig fellowship.
- BASF SE
- Fonds der Chemischen Industrie through a Liebig fellowship
This study investigates the problems in the cycling performance of solid-state batteries (SSBs) and emphasizes the importance of considering the interplay between superionic solid electrolytes (SEs) and cathode materials. The use of a SE with a low Young's modulus is found to achieve robust and stable interfaces, mitigating the mechanical degradation caused by volume changes in the layered cathode materials.
Solid-state batteries (SSBs) are a promising next step in electrochemical energy storage but are plagued by a number of problems. In this study, we demonstrate the recurring issue of mechanical degradation because of volume changes in layered Ni-rich oxide cathode materials in thiophosphate-based SSBs. Specifically, we explore superionic solid electrolytes (SEs) of different crystallinity, namely glassy 1.5Li2S-0.5P2S5-LiI and argyrodite Li6PS5Cl, with emphasis on how they affect the cyclability of slurry-cast cathodes with NCM622 (60% Ni) or NCM851005 (85% Ni). The application of a combination of ex situ and in situ analytical techniques helped to reveal the benefits of using a SE with a low Young's modulus. Through a synergistic interplay of (electro)chemical and (chemo)mechanical effects, the glassy SE employed in this work was able to achieve robust and stable interfaces, enabling intimate contact with the cathode material while at the same time mitigating volume changes. Our results emphasize the importance of considering chemical, electrochemical, and mechanical properties to realize long-term cycling performance in high-loading SSBs. Video Abstract: The interplay between (electro)chemical and (chemo)mechanical effects in the cycling performance of thiophosphate-based solid-state batteries
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