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Absolutely‐Zero‐Expansion Behavior Enables Ultra‐Long Life for Stationary Energy Storage.

Authors :
Ou, Yinjun
Yang, Liting
Gao, Jiazhe
Li, Songjie
Liu, Xuehua
Cheng, Yifeng
Zhang, Jincang
Wu, Limin
Lin, Chunfu
Che, Renchao
Source :
Advanced Functional Materials. 11/16/2023, Vol. 33 Issue 47, p1-10. 10p.
Publication Year :
2023

Abstract

Ultra‐long‐life (at least 10 000 cycles) lithium‐ion batteries are very effective for stationary energy‐storage applications. However, even "zero‐strain" materials with small unit‐cell‐volume changes of <1% cannot last for ultra‐long cycles due to gradually accumulated intracrystal strain/stress. Here, Li[Li0.2Cr0.4Ti1.4]O4 is explored as the first absolutely‐zero‐expansion material with unit‐cell‐volume variations of zero during Li+ storage. Its absolutely‐zero‐expansion mechanism is intensively studied, revealing that 16c‐octahedron shrinkage fully offsets 16d‐octahedron expansion through reversible O2− movement. It delivers better cycling stability than, as far as we know, all electrochemical energy‐storage materials previously reported. Its capacity retention at 10 C and 1.0 mg cm−2 after 17 000 cycles reaches 91.5%. When the active‐material loading significantly increases to 6.4 mg cm−2, its capacity retention at 5 C after 500 cycles reaches 95.7%. At an elevated temperature of 45 °C, it not only keeps excellent cycling stability but also exhibits significantly enhanced rate capability. Therefore, Li[Li0.2Cr0.4Ti1.4]O4 is especially suitable for stationary energy storage. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
1616301X
Volume :
33
Issue :
47
Database :
Academic Search Index
Journal :
Advanced Functional Materials
Publication Type :
Academic Journal
Accession number :
173659434
Full Text :
https://doi.org/10.1002/adfm.202305329