Effects of Bending on Nucleation and Injection of Oxygen Vacancies into the Bulk Lattice of Li-Rich Layered Cathodes

被引:4
|
作者
Peng, Haoyang [1 ,2 ]
Zhuo, Haoxiang [3 ]
Xia, Fanjie [1 ,2 ]
Zeng, Weihao [1 ,2 ]
Sun, Congli [1 ,2 ]
Wu, Jinsong [1 ,2 ]
机构
[1] Wuhan Univ Technol, State Key Lab Adv Technol Mat Synth & Proc, Wuhan 430070, Hubei, Peoples R China
[2] Wuhan Univ Technol, Nanostruct Res Ctr, Wuhan 430070, Peoples R China
[3] GRINM Grp Co Ltd, Natl Power Battery Innovat Ctr, Beijing 100088, Peoples R China
来源
ADVANCED FUNCTIONAL MATERIALS | 2023年 / 33卷 / 51期
基金
中国国家自然科学基金;
关键词
bending; in situ transmission electron microscopy; Li-rich cathodes; oxygen release; oxygen vacancy nucleation; LITHIUM; ELECTRODES; MN; DEGRADATION; ORIGIN;
D O I
10.1002/adfm.202306804
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
The degradation of Li- and Mn-rich (LMR) cathodes primarily results from the thermodynamic instability of lattice oxygen and the resulting oxygen release. This is promoted by localized lattice strain, which develops dynamically during electrochemical reactions involving repeated Li-ion intercalation and extraction. However, the role of chemomechanical strain in degrading lattice oxygen's stability is not yet well-understood. Here, the research indicates that uneven strain distribution causes bending, resulting in lower activation energy for oxygen vacancy creation and injection into particle interiors at bending points. Combining in situ transmission electron microscopy and theoretical simulations, it is shown that the largest OO interaction occurs at the maximum curvature point, reducing MnO bonding strength, promoting oxygen dimer formation, and eventually initiating oxygen release from LMR. As a result, a process is designed to adjust the Li-content and the distribution of the two-phase structure, achieving better cycling stability in LMR cathodes with a more balanced distribution of strain. These results provide insights into enhancing LMR cycling stability while utilizing their high capacity.
引用
收藏
页数:11
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