Novel High-Entropy oxide Achieves high capacity and stability as an anode for Lithium-Ion batteries

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作者
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[1] [1,Che, Chengjiao
[2] 1,Bi, Jianqiang
[3] 2,Zhang, Xihua
[4] 1,Yang, Yao
[5] 1,Wang, Hongyi
[6] 1,Rong, Jiacheng
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Bi, Jianqiang (bjq1969@163.com) | 2025年 / 378卷
关键词
Anodes;
D O I
10.1016/j.matlet.2024.137521
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摘要
High-entropy oxides possess high theoretical capacity, stable chemical structure, making them highly promising as battery electrode materials. The limited successful synthesis of high-entropy oxide systems has hindered their further development. This study synthesized a six-component high-entropy spinel oxide (FeCoMgCrLiZn)3O4 for the first time and evaluated its electrochemical performance as an anode for lithium-ion batteries. The data show that this single-phase oxide exhibits a high reversible capacity (stabilizing at 800 mAh/g after 300 cycles at 200 mA/g), good cycling stability (800 stable cycles at 2000 mA/g without significant capacity decay), and excellent rate performance. This study expands the high-entropy oxide family and provides a potential strategy for developing next-generation energy storage materials. © 2024 Elsevier B.V.
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