阳极
电解质
材料科学
锌
电化学
部分
分子
水溶液
结晶
动力学
无机化学
金属
化学工程
配位复合体
十二烷基硫酸钠
氢键
钠
纳米颗粒
激进的
氢
支撑电解质
作者
Jinlong Zhang,Qing Wu,Xiude Liu,Song Yang,Fusheng Luo,Zeyu Yan,Jun Huang,Yiwang Chen
标识
DOI:10.1002/adfm.202520448
摘要
Abstract Zinc (Zn) metal anodes have garnered significant attentions for their applications in aqueous Zn‐ions batteries (AZIBs), but the electrochemical plating/stripping chemistry and failure mechanism under multifactorial conditions remain ambiguous, and the reversibility is overestimated under the single condition. Herein, a reversibility indicator ( R i ) based on the characteristic crystallization peaks is proposed to evaluate the plating/stripping chemistry and understand the reversibility, particularly in Zn//Cu asymmetric cells. Moreover, a nanomicellar electrolyte composing sodium dodecyl sulfate and curcumin has been designed, which encapsulates Zn 2+ within the nanodomain structure via the strong coordination interaction between β ‐diketone moiety of curcumin molecules and Zn 2+ , leading to the controlled Zn 2+ release and enhancing Zn 2+ transfer kinetics for the dense Zn deposition. Additionally, the initial consecutive hydrogen bonding network is disrupted, thereby suppressing the hopping transport of protons for interfacial side reactions. As a result, the Zn//Zn cell delivers a stable cycling up to 3800 h, a high discharge of depth with 28.5% for over 1200 h, and the Zn//Cu cell with low R i value (0.87) exhibits highly reversible cycling for 1418 h at 5 mA cm −2 . This study provides an innovative insight into promoting the symmetric Zn plating/stripping chemistry for highly reversible AZIBs.
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