Understanding Rechargeable Li-O2 Batteries via First-Principles Computations

被引：31

作者：

Zhang, Xu ^{[1
]}

Chen, An ^{[1
]}

Jiao, Menggai ^{[1
]}

Xie, Zhaojun ^{[1
]}

Zhou, Zhen ^{[1
]}

机构：

[1] Nankai Univ, Sch Mat Sci & Engn, Minist Educ,Inst New Energy Mat Chem, Renewable Energy Convers & Storage Ctr ReCast,Key, Tianjin 300350, Peoples R China

来源：

BATTERIES & SUPERCAPS | 2019年 / 2卷 / 06期

关键词：

Li-O-2; batteries; OER; ORR; charge transfer; solvent stability; DFT; OXYGEN REDUCTION REACTION; ELECTRON-TRANSFER REACTION; METAL-AIR BATTERIES; CATALYTIC-ACTIVITY; CHARGE-TRANSPORT; EVOLUTION REACTION; DOPED GRAPHENE; CATHODE CATALYSTS; LITHIUM; LI;

D O I：

10.1002/batt.201900010

中图分类号：

O646 [电化学、电解、磁化学];

学科分类号：

081704 ;

摘要：

Driven by the growing demand of energy storage devices, rechargeable Li-O-2 batteries, especially non-aqueous ones, are considered as one of the most promising technologies due to their ultrahigh energy density. However, there are still many challenges, including poor catalytic activity, low conductivity and solvent degradation, to be overcome before their implementation in practical applications. Over decades, first-principles computations have made great progress and become a powerful tool to predict key performances of various components in rechargeable Li-O-2 batteries at atomic level. In this review, we introduce first-principles approaches, and summarize the recent advancement in computational investigations on cathode catalysts, products and solvents for rechargeable Li-O-2 batteries. In addition, the challenges and potential research directions are also briefly discussed.

引用

页码：498 / 508

页数：11

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