阴极
插层(化学)
钒
材料科学
化学工程
硒化物
水溶液
储能
溶解
扩散
无机化学
电化学
电导率
纳米技术
溶剂热合成
动力学
容量损失
氧化钒
混合材料
电池(电)
电流密度
电子传输链
离子
催化作用
制作
比表面积
锂(药物)
电极
法拉第效率
复合数
阳极
过渡金属
纳米晶
作者
Wei Lv,Xudong Cu,Jie Cheng,Beibei Wang,Jintao Bai,Gaohong Zhai,Gang Wang
出处
期刊:Chemsuschem
[Wiley]
日期:2025-09-19
卷期号:18 (21): e202501067-e202501067
被引量:2
标识
DOI:10.1002/cssc.202501067
摘要
Because suitable cathode materials are scarce, the advancement of aqueous zinc-ion batteries (AZIBs) has been seriously hindered. Although intercalation-type compounds offer good cycling stability, they have relatively low specific capacities. On the contrary, conversion-type cathodes can provide higher capacity but often have poor cycle reversibility and stability. Herein, a facile solvothermal approach is employed to prepare the Te/VSe2 hybrid material with Te particles distributed homogeneously on the surface of VSe2 plates. The addition of Te to VSe2 not only boosts significantly the conductivity of the hybrid cathode, promotes fast ion diffusion and electron transport, but also su pplies extra specific capacity. In addition, the introduction of Te can effectively inhibit the dissolution of vanadium ions, thereby promoting the activity of VSe2 and improving the utilization of VSe2. Thus, the synergistic effect of the intercalation and conversion mechanisms endows the Te/VSe2 hybrid with excellent reversible capacity of 162 mA h g-1 under a current density of 0.1 A g-1 and a durable cycling ability (85% capacity retention after 1000 cycles at 0.8 A g-1). This work demonstrates the feasibility of the strategy by integrating intercalation- and conversion-type materials to develop outstanding cathode for AZIBs.
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