Cation Disordered Anti-Perovskite Cathode Materials with Enhanced Lithium Diffusion and Suppressed Phase Transition

Zhi Deng, Diancheng Chen, Mingyang Ou, Yuanpeng Zhang, Jia Xu, Dixing Ni, Zhaoran Ji, Jiantao Han, Yang Sun, Shuai Li, Chuying Ouyang, Zhaoxiang Wang

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Abstract

Recently, a new family of anti-perovskite Li2TMSO was discovered as promising cathode materials for Li-ion batteries (LIBs) with superiorities in high specific capacity, low cost, and environmental friendliness. However, the applications of these anti-perovskite materials meet severe challenges in the cyclability and rate performance. Herein, a cation-disordered anti-perovskite type solid solution Li2Fe1−xMnxSO (LFMSO, x = 0, 0.2, 0.5) with excellent electrochemical performance is reported. On the basis of comprehensive structural characterizations, the role of the cation disordering in LFMSO is clarified. In comparison with Li2FeSO (LFSO), the reduced Li-ion diffusion barrier and the increased Li-rich octahedral configurations in LFMSO with higher configurational entropy imply the facilitated long-range Li-ion diffusion and the suppressed phase transition, which favor the high-rate capability and cycling stability. In addition, the large lattice distortion and Coulombic interaction between the anions and cations lead to the breathing of the unit cell during charge/discharge. The variation of the unit cell volume decreases to 2.5% upon Li-ion delithiation. A superstructure is observed in LFMSO for the first time. These findings help to pave the way for the research and development of novel cathode materials for the next generation LIBs.

Original languageEnglish
Article number2300695
JournalAdvanced Energy Materials
Volume13
Issue number28
DOIs
StatePublished - Jul 27 2023

Funding

This work was financially supported by the Research on High Safety Batteries for Ocean Equipment (No. 211‐‐‐01‐10‐00); the Program of the National Natural Science Foundation of China (Nos. 22209067 and 12174162); the Guangdong Basic and Applied Basic Research Foundation (No. 2021A1515011784); and the Stable Support Plan Program for Higher Education Institutions (No. 20220814235931001). This work was supported by Academy for Advanced Interdisciplinary Studies and Center for Computational Science and Engineering at Southern University of Science and Technology, and by Songshan Lake Materials Laboratory.

FundersFunder number
Songshan Lake Materials Laboratory
Stable Support Plan Program for Higher Education Institutions20220814235931001
National Natural Science Foundation of China22209067, 12174162
Southern University of Science and Technology
Basic and Applied Basic Research Foundation of Guangdong Province2021A1515011784

    Keywords

    • cation-disordered anti-perovskite cathodes
    • cell breathing
    • short-range order
    • super-structures
    • suppressed phase transitions

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