Bimetallic-ion co-intercalation to stabilize vanadium-oxygen bonds towards high-performance aqueous zinc-ion storage

被引:0
|
作者
Jiang, Yulin [1 ]
Wen, Xia [1 ]
Li, Yinuo [1 ]
Li, Yuhang [1 ]
Peng, Yanan [1 ]
Feng, Wang [1 ]
Li, Xiaohui [1 ]
Yang, Junbo [1 ]
Song, Luying [1 ]
Huang, Ling [1 ]
Sun, Hang [1 ]
Shi, Jianping [1 ]
机构
[1] Wuhan Univ, Inst Adv Studies, Wuhan 430072, Peoples R China
来源
JOURNAL OF MATERIALS CHEMISTRY A | 2024年
基金
国家重点研发计划; 中国国家自然科学基金;
关键词
BATTERY; COMPOSITES; VANADATE;
D O I
10.1039/d4ta05938g
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
Aqueous zinc-ion batteries (AZIBs) have received increasing attention in large-scale energy storage systems because of their appealing features with respect to safety, cost, and scalability. Although vanadium oxides with different compositions demonstrate promising potential as cathodes for AZIBs, the narrow interlayer spacing, inferior electronic conductivity, and high dissolution in electrolyte seriously restrict their practical applications. Here we design an ingenious bimetallic-ion (Mg2+ and Al3+) co-intercalation strategy to boost the performance of AZIBs using V6O13<middle dot>1.31H2O (VOH). The bimetallic-ion intercalation expands the interlayer spacing, increases electronic conductivity, and more importantly stabilizes the vanadium-oxygen bond in VOH, thus promoting ion/electron transport kinetics and restraining vanadium oxide dissolution. As expected, MgAl-VOH cathodes deliver ultrahigh specific capacities of 524.9 and 275.6 mA h g-1 at current densities of 0.1 and 5 A g-1, respectively, comparable to the highest value reported for vanadium oxides. The underlying zinc-ion storage mechanism is unambiguously clarified with the aid of density functional theory calculations and in situ structural characterization. This work opens up a new avenue for boosting the performance of AZIBs by designing bimetallic-ion co-intercalated cathodes.
引用
收藏
页码:645 / 653
页数:9
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