In-situ electrochemical modification of pre-intercalated vanadium bronze cathodes for aqueous zinc-ion batteries

被引:17
|
作者
Li, Jianwei [1 ,2 ]
Hong, Ningyun [2 ]
Luo, Ningjing [1 ]
Dong, Haobo [4 ]
Kang, Liqun [5 ]
Peng, Zhengjun [2 ]
Jia, Guofeng [2 ]
Chai, Guoliang [1 ]
Wang, Min [2 ]
He, Guanjie [3 ,4 ,5 ]
机构
[1] Chinese Acad Sci, Fujian Inst Res Struct Matter, State Key Lab Struct Chem, Fuzhou 350002, Peoples R China
[2] Chinese Acad Sci, Qinghai Inst Salt Lakes, Key Lab Comprehens & Highly Efficient Utilizat Sa, Xining 810008, Peoples R China
[3] Univ Lincoln, Sch Chem, Joseph Banks Labs, Green Lane, Lincoln LN6 7DL, England
[4] UCL, Dept Chem, 20 Gordon St, London WC1H 0AJ, England
[5] UCL, Dept Chem Engn, London WC1E 7JE, England
来源
SCIENCE CHINA-MATERIALS | 2022年 / 65卷 / 05期
基金
英国工程与自然科学研究理事会; 中国国家自然科学基金;
关键词
in-situ electrochemical conversion; dual-ion pre-intercalated V2O5; electrolyte-controlled conversion; zinc ion batteries; V2O5; CONSEQUENCES;
D O I
10.1007/s40843-021-1893-2
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Vanadium bronzes have been well-demonstrated as promising cathode materials for aqueous zinc-ion batteries. However, conventional single-ion pre-intercalated V2O5 nearly reached its energy/power ceiling due to the nature of micro/electronic structures and unfavourable phase transition during Zn2+ storage processes. Here, a simple and universal in-situ anodic oxidation method of quasi-layered CaV4O9 in a tailored electrolyte was developed to introduce dual ions (Ca(2+ )and Zn2+) into bilayer delta-V2O5 frameworks forming crystallographic ultra-thin vanadium bronzes, Ca0.12Zn0.12V2O5 center dot nH(2)O. The materials deliver transcendental maximum energy and power densities of 366 W h kg(-1) (478 mA h g(-1) @ 0.2 A g(-1)) and 6627 W kg(-1) (245 mA h g(-1) @ 10 A g(-1)), respectively, and the long cycling stability with a high specific capacity up to 205 mA h g(-1) after 3000 cycles at 10 A g(-1). The synergistic contributions of dual ions and Ca-2(+) electrolyte additives on battery performances were systematically investigated by multiple in-/ex-situ characterisations to reveal reversible structural/chemical evolutions and enhanced electrochemical kinetics, highlighting the significance of electrolyte-governed conversion reaction process. Through the computational approach, reinforced "pillar" effects, charge screening effects and regulated electronic structures derived from pre-intercalated dual ions were elucidated for contributing to boosted charge storage properties.
引用
收藏
页码:1165 / 1175
页数:11
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