Rice-shaped Fe2O3@C@Mn3O4 with three-layer core-shell structure as a high-performance anode for lithium-ion batteries

被引:13
作者
Ju, Wentao [1 ,2 ]
Jin, Bo [1 ,2 ]
Dong, Chunwei [1 ,2 ]
Wen, Zi [1 ,2 ]
Jiang, Qing [1 ,2 ]
机构
[1] Jilin Univ, Key Lab Automobile Mat, Minist Educ, Changchun 130022, Peoples R China
[2] Jilin Univ, Coll Mat Sci & Engn, Changchun 130022, Peoples R China
来源
JOURNAL OF ELECTROANALYTICAL CHEMISTRY | 2020年 / 861卷
基金
中国国家自然科学基金;
关键词
Core-shell structure; Transition metal oxide; Anode; Lithium-ion batteries; HOLLOW NANOSTRUCTURES; FACILE PREPARATION; HIGH-CAPACITY; CYCLE-LIFE; LONG-LIFE; STORAGE; ALPHA-FE2O3; COMPOSITE; GRAPHENE; NANOSHEETS;
D O I
10.1016/j.jelechem.2020.113942
中图分类号
O65 [分析化学];
学科分类号
070302 ; 081704 ;
摘要
I-n order to solve the problem of poor cycling performance of Fe2O3 for lithium-ion batteries (LIBs) due to its poor electronic conductivity and large volume expansion during charge/discharge cycles, we designed and synthesized Fe2O3@C@Mn3O4 with three-layer core-shell structure, which consists of Fe2O3, mesoporous carbon, and Mn3O4. The unique structure of the Fe2O3@C@Mn3O4 effectively alleviates volume expansion, improves electronic conductivity, and then improves cycle stability. When the Fe2O3@C@Mn3O4 is used as an anode for LIBs, at a current density of 200mA g(-1), the discharge capacity is 1062 mAh g(-1) after 100 cycles. When the current density is as high as 1000 mA g(-1), the discharge capacity still reaches 853 mAh g(-1) after 450 cycles. As a result, Fe2O3@C@Mn3O4 as an anode material has a great potential for LIBs. (C) 2020 Elsevier B.V. All rights reserved.
引用
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页数:8
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