材料科学
电解质
离子电导率
阳极
电导率
锂(药物)
离子
聚合物
化学工程
电极
快离子导体
离子键合
金属
纳米技术
复合材料
化学
冶金
有机化学
工程类
内分泌学
医学
物理化学
作者
Xinyuan Shan,Sheng Zhao,Mengxiang Ma,Yiyang Pan,Zhenxue Xiao,Bingrui Li,Alexei P. Sokolov,Ming Tian,Huabin Yang,Pengfei Cao
标识
DOI:10.1021/acsami.2c17547
摘要
With many reported attempts on fabricating single-ion conducting polymer electrolytes, they still suffer from low ionic conductivity, narrow voltage window, and high cost. Herein, we report an unprecedented approach on improving the cationic transport number (tLi+) of the polymer electrolyte, i.e., single-ion conducting polymeric protective interlayer (SIPPI), which is designed between the conventional polymer electrolyte (PVEC) and Li-metal electrode. Satisfied ionic conductivity (1 mS cm-1, 30 °C), high tLi+ (0.79), and wide-area voltage stability are realized by coupling the SIPPI with the PVEC electrolyte. Benefiting from this unique design, the Li symmetrical cell with the SIPPI shows stable cycling over 6000 h at 3 mA cm-2, and the full cell with the SIPPI exhibits stable cycling performance with a capacity retention of 86% over 1000 cycles at 1 C and 25 °C. This incorporated SIPPI on the Li anode presents an alternative strategy for enabling high-energy density, long cycling lifetime, and safe and cost-effective solid-state batteries.
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