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磷酸铁锂/石墨烯复合材料的低温微波水热法制备及性能
引用本文:张旻澍,谢安,常丽娟,朱冬. 磷酸铁锂/石墨烯复合材料的低温微波水热法制备及性能[J]. 稀有金属材料与工程, 2019, 48(11): 3708-3713
作者姓名:张旻澍  谢安  常丽娟  朱冬
作者单位:厦门理工学院 福建省功能材料及应用重点实验室,厦门理工学院 福建省功能材料及应用重点实验室,四川省有色冶金研究院有限公司,四川省有色冶金研究院有限公司
基金项目:国家自然科学基金项目(面上项目,重点项目,重大项目)
摘    要:采用喷雾干燥结合低温微波水热法制备了石墨烯/LiFePO4复合正极材料,利用SEM、XRD、DLS等对其微观形貌、结构、粒度分布进行了表征,并利用恒流充放电、CV、EIS等测试研究了复合正极材料的电化学性能和电极动力学过程。结果表明,与未包覆的样品相比,石墨烯包覆的LiFePO4具有优异的倍率性能(5C放电比容量为125.4 mAh?g-1)和循环稳定性(1C条件下100次充放电后容量保持率在95%左右)。包覆石墨烯后LiFePO4正极材料的电荷迁移电阻减小,电化学可逆性增强,从而提高了材料的倍率性能。本文提供了一条提高磷酸铁锂正极材料电化学性能的简便途径,具有良好的应用前景。

关 键 词:锂离子电池  纳米复合壳体结构  倍率性能   界面阻抗  循环性能  
收稿时间:2018-07-02
修稿时间:2018-08-20

The synthesis of Graphene coated LiFePO4 Composites by Low temperature microwave hydrothermal method
ZhangMinshu,Xie An,Chang Lijuan and Zhu Dong. The synthesis of Graphene coated LiFePO4 Composites by Low temperature microwave hydrothermal method[J]. Rare Metal Materials and Engineering, 2019, 48(11): 3708-3713
Authors:ZhangMinshu  Xie An  Chang Lijuan  Zhu Dong
Affiliation:Fujian Provincial Key Laboratory of Functional Materials and Applications,Xiamen University of Technology,Fujian Provincial Key Laboratory of Functional Materials and Applications,Xiamen University of Technology,Sichuan Non-Ferrous Metallurgy Research Co,Ltd,Sichuan Non-Ferrous Metallurgy Research Co,Ltd
Abstract:LiFePO4 was prepared by SpraySdrying technique, and then graphene coated LiFePO4 nanocomposites were synthesized through microwave hydrothermal method under low temperature. The morphology, structural properties and particle size distribution of the samples were characterized by scanning electron microscopy (SEM), X-ray diffraction (XRD) and Dynamic Laser Scattering(DLS). Served as cathode materials for Li-ion batteries, the electrochemical performance and dynamic characteristics of electrode process were systematically investigated using constant-current charge-discharge techniques, cyclic voltammetric (CV) and electrochemical impedance spectra (EIS). Compared with LiFePO4 electrode, graphene coated LiFePO4 exhibited superior rate capability (125.4 mAh?g-1 at 5C) and endurable cycle life (about 95% capacitance retained after 100 cycles at 5C). The optimum performances of graphene coated LiFePO4 are attributed to its typical nanocomposite structure, which not only remarkably enhance the electrochemical reversibility but also obviously reduce the charge transfer resistance. The results of this study may pave an effective strategy to improve the electrochemical performance of LiFePO4 electrode for batteries.
Keywords:Lithium-ion battery   Nano-composite shellSstructure   Ratio discharge property   Interface impedance   CyclingSperformance
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