期刊
ELECTROCHIMICA ACTA
卷 414, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.electacta.2022.140164
关键词
Anode; Graphene; MnO2; Li-ion battery; Ordered mesoporous; Full cell studies
资金
- Council of Scientific and Industrial Research (CSIR) -INDIA [31/52 (14) 2k17]
The combination of graphene and mesoporous MnO2 in composite materials as anode for Li-ion batteries exhibits good cycling stability and rate performance. The synergetic effects of the mesoporous structure and graphene contribute to the high discharge capacity and superior electronic conductivity of the composites.
Among various transition metal oxides, MnO2 is a promising anode material for Li-ion battery applications due to its lower discharge potential, good capacity and high abundance. However, poor electronic conductivity hampers its practical applications. Herein we report two unique mesoporous MnO2-graphene composites, M1-MnO2-G and M8-MnO2-G, where M1 and M8 represent the use of specific silica template, MCM-41 and MCM-48 respectively in deriving these phases. Our results show that as anode materials for Li-ion battery application, both the composites exhibit good cycling stability, high discharge capacity, and superior rate performance. For instance, M1-MnO2-G and M8-MnO2-G deliver stable discharge capacity of 1112 mA h g(+1) and 1494 mA h g(+1 )at C/5 rate. The high specific capacities and superior rate performance of the composites are due to the synergistic effects of graphene integrated mesoporous MnO2. The mesoporous architecture with nano-size wall thickness provides shorter diffusion paths for Li+ ion conduction in addition to facilitating uniform electrolyte infiltration throughout the electrode, while the graphene enhances the electronic conductivity and mechanical strength of the composite electrode. Full cell studies using mesoporous MnO2-Graphene composites anode against LiNi0.8Mn0.1Co0.1O2 cathode (M8-MnO2-GLiNMC811) indicate very stable capacity (200 cycles at 0.1C) and high rate (5C) performance.
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