电解质
水溶液
离子
材料科学
化学工程
无机化学
工艺工程
化学
纳米技术
电极
工程类
有机化学
物理化学
作者
Kaiwen Xiao,Qiang Yang,Xuedi Wang,Tao Chen,Jiajun Fu
标识
DOI:10.1021/acs.iecr.5c02866
摘要
Aqueous rechargeable metal-ion batteries (ARMBs) represent a promising research field due to their inherent sustainability and safety. However, the practical applications of ARMBs require reliable operation under diverse environmental conditions, particularly at low temperatures. The fundamental challenge for low-temperature ARMBs stems from the solidification of aqueous electrolytes at subzero temperatures, which severely impedes ion transport and electrochemical kinetics. Electrolyte engineering has emerged as the pivotal strategy to overcome this limitation. This review provides a comprehensive summary of recent advances in low-temperature ARMBs, with a specific focus on breakthrough modification strategies for both liquid and hydrogel electrolytes. Furthermore, it compares the effectiveness of various optimization strategies aimed at improving low-temperature performance. Finally, promising future research directions for advancing this rapidly evolving field are outlined. This review offers a foundational understanding and a pragmatic design perspective to guide the development of low-temperature ARMBs for future applications.
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