脱质子化
化学
电解质
溶剂
亲核细胞
从头算
溶剂化
无机化学
氧化还原
计算化学
物理化学
有机化学
离子
催化作用
电极
作者
Aiping Wang,Xiaohong Wu,Zheyi Zou,Yu Qiao,Da Wang,Lidan Xing,Yuhui Chen,Yuxiao Lin,Maxim Avdeev,Siqi Shi
出处
期刊:Angewandte Chemie
[Wiley]
日期:2023-02-07
卷期号:62 (14): e202217354-e202217354
被引量:15
标识
DOI:10.1002/anie.202217354
摘要
Abstract LiI and LiBr have been employed as soluble redox mediators (RMs) in electrolytes to address the sluggish oxygen evolution reaction kinetics during charging in aprotic Li‐O 2 batteries. Compared to LiBr, LiI exhibits a redox potential closer to the theoretical one of discharge products, indicating a higher energy efficiency. However, the reason for the occurrence of solvent deprotonation in LiI‐added electrolytes remains unclear. Here, by combining ab initio calculations and experimental validation, we find that it is the nucleophile that triggers the solvent deprotonation and LiOH formation via nucleophilic attack, rather than the increased solvent acidity or the elongated C−H bond as previously suggested. As a comparison, the formation of in LiBr‐added electrolytes is found to be thermodynamically unfavorable, explaining the absence of LiOH formation. These findings provide important insight into the solvent deprotonation and pave the way for the practical application of LiI RM in aprotic Li‐O 2 batteries.
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