Redox Mediator-Enhanced Performance and Generation of Singlet Oxygen in Li-CO2Batteries

Deqing Cao; Xiaojing Liu; Xinhai Yuan; Fengjiao Yu; Yuhui Chen

doi:10.1021/acsami.1c09688

Redox Mediator-Enhanced Performance and Generation of Singlet Oxygen in Li-CO₂Batteries

Deqing Cao, Xiaojing Liu, Xinhai Yuan, Fengjiao Yu, Yuhui Chen

School of energy science and engineering

Nanjing Tech University

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

Rechargeable Li-CO2 batteries as a novel system developed in recent years directly use CO2 as the reactant, which enables deeper penetration of energy storage and CO2 utilization. The Li-CO2 battery system, however, is at an early stage, and many challenges remained to be overcome urgently, especially the problem of high over-potential during the charging process. Here, we report a redox mediator, phenoxathiin, to assist the decomposition of Li2CO3 during the charging process, which effectively reduces the over-potential and improves the cycling performance of the battery. Furthermore, we detect the presence of singlet oxygen during the oxidation of Li2CO3 by phenoxathiin, which reveals more of the underlying science of the reaction mechanism of the Li-CO2 battery.

Original language	English
Pages (from-to)	39341-39346
Number of pages	6
Journal	ACS Applied Materials and Interfaces
Volume	13
Issue number	33
DOIs	https://doi.org/10.1021/acsami.1c09688
State	Published - 25 Aug 2021

Keywords

Li-CObattery
energy storage
isotope labeling
redox mediator
singlet oxygen

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10.1021/acsami.1c09688

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abstract = "Rechargeable Li-CO2 batteries as a novel system developed in recent years directly use CO2 as the reactant, which enables deeper penetration of energy storage and CO2 utilization. The Li-CO2 battery system, however, is at an early stage, and many challenges remained to be overcome urgently, especially the problem of high over-potential during the charging process. Here, we report a redox mediator, phenoxathiin, to assist the decomposition of Li2CO3 during the charging process, which effectively reduces the over-potential and improves the cycling performance of the battery. Furthermore, we detect the presence of singlet oxygen during the oxidation of Li2CO3 by phenoxathiin, which reveals more of the underlying science of the reaction mechanism of the Li-CO2 battery.",

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T1 - Redox Mediator-Enhanced Performance and Generation of Singlet Oxygen in Li-CO2Batteries

AU - Cao, Deqing

AU - Liu, Xiaojing

AU - Yuan, Xinhai

AU - Yu, Fengjiao

AU - Chen, Yuhui

PY - 2021/8/25

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AB - Rechargeable Li-CO2 batteries as a novel system developed in recent years directly use CO2 as the reactant, which enables deeper penetration of energy storage and CO2 utilization. The Li-CO2 battery system, however, is at an early stage, and many challenges remained to be overcome urgently, especially the problem of high over-potential during the charging process. Here, we report a redox mediator, phenoxathiin, to assist the decomposition of Li2CO3 during the charging process, which effectively reduces the over-potential and improves the cycling performance of the battery. Furthermore, we detect the presence of singlet oxygen during the oxidation of Li2CO3 by phenoxathiin, which reveals more of the underlying science of the reaction mechanism of the Li-CO2 battery.

KW - Li-CObattery

KW - energy storage

KW - isotope labeling

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KW - singlet oxygen

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Redox Mediator-Enhanced Performance and Generation of Singlet Oxygen in Li-CO₂Batteries

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Keywords

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