材料科学
电解质
相容性(地球化学)
金属锂
纳米技术
离子键合
锂(药物)
储能
聚合物电解质
快离子导体
金属
钥匙(锁)
能量密度
复合数
化学工程
热的
作者
Zhangkuo Han,Shusen Zhou,Di Jiang,Jiajun Zheng,Huiying Hao,Jie Xing,Jingjing Dong,Hao Liu,Libing Liao
标识
DOI:10.1002/adfm.202523711
摘要
Abstract (Quasi) solid‐state electrolytes (QSSEs) are a promising route to commercially viable batteries, offering superior interfacial compatibility and tunability. Yet their application is limited by low ionic conductivity, poor thermal stability, and safety risks from lithium dendrites. Clay minerals have recently emerged as attractive QSSE components owing to their unique nanostructures, abundant ion‐conducting sites, intrinsic flame retardancy, and low cost. This review summarizes the key properties of representative clays and advances in their use for QSSEs in metal (Li, Zn, Na) batteries, with emphasis on their role in ion‐transport regulation and the multi‐component interactions within clay composite solid‐state electrolytes (CCSEs). Finally, design strategies and research directions are outlined to realize high‐performance, intrinsically safe CCSEs. This review aims to deepen mechanistic understanding and accelerate the development of clay‐based electrolytes for next‐generation energy storage.
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