电解质
电池(电)
阴极
相(物质)
材料科学
化学工程
电极
溶剂化
水溶液
转化(遗传学)
微观结构
工作(物理)
能量转换
储能
双水相体系
无机化学
化学物理
比能量
电化学
化学
作者
Xiu-ling Shi,Yuchuan Sun,Bin Cao,Xiaoye Zhou,Tongxing Lei,Jiahui Li,Zhiyu Ding,Kan Fang,Junwei Wu,Yan Huang,Kaikai Li,Tong-Yi Zhang
标识
DOI:10.1002/ange.202520628
摘要
Abstract Concentrated electrolyte offers a promising approach to enhance aqueous batteries, yet its influence on electrode phase transformations and mechanical properties remains largely unknown. This work shows that salt‐concentrated electrolyte induces a first‐order phase transformation, rather than the conventional conversion reaction of VS 4 cathode typically observed in dilute electrolyte. This transformation results in a semi‐coherent phase boundary, reducing strain and improving energy efficiency. As a result, capacity doubles and cycle life increase sixty‐fold compared to regular dilute electrolyte. The first‐order phase transformation is attributed to reduced de‐solvation energy and charge transfer energy barrier due to different Zn 2+ solvation structure in the concentrated electrolyte. Our findings offer groundbreaking insights into the microstructure evolution of electrode in concentrated electrolyte and pave the way to further develop batteries with excellent performance.
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