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Why charging Li–air batteries with current low-voltage mediators is slow and singlet oxygen does not explain degradation

بواسطة Bertei, Antonio , Jenkins, Max , Lagnoni, Marco , Chau, Chloe , Yang, Sixie , Ahn, Sunyhik , Rees, Gregory J , Grobert, Nicole , Johnson, Lee R , Bruce, Peter G , Dewar, Daniel , Nimmo, Tammy , Gao, Xiangwen , Zor, Ceren , Kibler, Alexander J , Pateman, Alexander , Adamson, Paul

في Air batteries / Batteries / Charging / Degradation / Disproportionation / Electric potential / Insulation / Intermediates / Lithium / Lithium-ion batteries / Oxidation / Reaction kinetics / Rechargeable batteries / Redox potential / Singlet oxygen / Voltage

2023

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Why charging Li–air batteries with current low-voltage mediators is slow and singlet oxygen does not explain degradation

2023

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Why charging Li–air batteries with current low-voltage mediators is slow and singlet oxygen does not explain degradation

2023

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Journal Article

Why charging Li–air batteries with current low-voltage mediators is slow and singlet oxygen does not explain degradation

Bertei, Antonio,

Jenkins, Max,

Lagnoni, Marco,

Chau, Chloe,

Yang, Sixie,

Ahn, Sunyhik,

Rees, Gregory J,

Grobert, Nicole,

Johnson, Lee R,

Bruce, Peter G,

Dewar, Daniel,

Nimmo, Tammy,

Gao, Xiangwen,

Zor, Ceren,

Kibler, Alexander J,

Pateman, Alexander,

Adamson, Paul

2023

نظرة عامة

Although Li–air rechargeable batteries offer higher energy densities than lithium-ion batteries, the insulating Li2O2 formed during discharge hinders rapid, efficient re-charging. Redox mediators are used to facilitate Li2O2 oxidation; however, fast kinetics at a low charging voltage are necessary for practical applications and are yet to be achieved. We investigate the mechanism of Li2O2 oxidation by redox mediators. The rate-limiting step is the outer-sphere one-electron oxidation of Li2O2 to LiO2, which follows Marcus theory. The second step is dominated by LiO2 disproportionation, forming mostly triplet-state O2. The yield of singlet-state O2 depends on the redox potential of the mediator in a way that does not correlate with electrolyte degradation, in contrast to earlier views. Our mechanistic understanding explains why current low-voltage mediators (<+3.3 V) fail to deliver high rates (the maximum rate is at +3.74 V) and suggests important mediator design strategies to deliver sufficiently high rates for fast charging at potentials closer to the thermodynamic potential of Li2O2 oxidation (+2.96 V).Ultra-high-capacity Li–air batteries have low Coulombic efficiency and degrade during re-charging, resulting in a poor cycle life. Redox mediators enable improvements but only at undesirably high potentials. The origin of this high potential and the impact of purported reactive intermediates has now been elucidated by resolving the charging mechanism using Marcus theory.

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Nature Publishing Group

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