相间
法拉第效率
阳极
水溶液
化学工程
材料科学
锌
金属
枝晶(数学)
电极
无机化学
化学
冶金
有机化学
物理化学
生物
工程类
遗传学
数学
几何学
作者
Mengyu Liu,Wentao Yuan,Guoqiang Ma,Kaiyue Qiu,Xueyu Nie,Yongchang Liu,Shigang Shen,Ning Zhang
出处
期刊:Angewandte Chemie
[Wiley]
日期:2023-05-02
卷期号:62 (27): e202304444-e202304444
被引量:175
标识
DOI:10.1002/anie.202304444
摘要
Abstract The irreversible issues of Zn anode stemming from dendrite growth and water‐induced erosion have severely hindered the commercialization of rechargeable aqueous Zn batteries. Herein, a hydrophobic and fast‐Zn 2+ ‐conductive zinc hexacyanoferrate (HB‐ZnHCF) interphase layer is in situ integrated on Zn by a rapid room‐temperature wet‐chemistry method to address these dilemmas. Different from currently proposed hydrophilic inorganic cases, the hydrophobic and compact HB‐ZnHCF interphase effectively prevents the access of water molecules to Zn surface, thus avoiding H 2 evolution and Zn corrosion. Moreover, the HB‐ZnHCF with large internal ion channels, strong zincophilicity, and high Zn 2+ transference number (0.86) permits fast Zn 2+ transport and enables smooth Zn deposition. Remarkably, the resultant HB‐ZnHCF@Zn electrode delivers unprecedented reversibility with 99.88 % Coulombic efficiency over 3000 cycles, realizes long‐term cycling over 5800 h (>8 months, 1 mA cm −2 ) and 1000 h (10 mA cm −2 ), and assures the stable operation of full Zn battery with both coin‐ and pouch‐type configurations.
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