材料科学
法拉第效率
阳极
分离器(采油)
复合数
电解质
电池(电)
金属锂
极化(电化学)
锂(药物)
微观结构
化学工程
复合材料
金属
锂离子电池
锂电池
阴极
电极
纳米技术
合金
钾离子电池
相间
相容性(地球化学)
电导率
容量损失
作者
Chao Tang,C.C. Wang,Lulu Zhang,Bo Yan,Huachao Tao,jia xiang,Yahao Li,Xuelin Yang
标识
DOI:10.1021/acsami.5c13847
摘要
Uncontrolled ion transport, fragile solid electrolyte interphase (SEI), and unstable lithium-plated microstructures in the anode are key factors inducing the growth of lithium dendrites and hindering the development of lithium metal batteries (LMBs). In this paper, a fluorinated graphene/polyacrylonitrile composite flexible material is simultaneously designed as the separator and the anode host, forming a comprehensive improved structure (optimized separator-SEI-host system) to enhance the LMB performance. The host and separator are modified with F, O- co -doped graphene, inducing the formation of a stable artificial SEI. Meanwhile, the Li + transport behavior was improved, and the Li deposition was well-guided. Thanks to this exquisite design, 7000 h of dendrite-free cycling and a low polarization of 10 mV are achieved by the symmetric cell at 1 mA cm –2 and 1 mAh cm –2 . At the same time, the full battery assembled with lithium iron phosphate established a 72% capacity retention and a 99.7% Coulombic efficiency after 1400 cycles. Moreover, impressive performances were also achieved when pairing with an NCM cathode. Our study demonstrates a strategy for LMB performance optimization, facilitating the practical application of LMB.
科研通智能强力驱动
Strongly Powered by AbleSci AI