The role of LiO2 solubility in O2 reduction in aprotic solvents and its consequences for Li–O2 batteries

Johnson L, Li C, Liu Z, Chen Y, Freunberger SA, Ashok PC, Praveen BB, Dholakia K, Tarascon J-M, Bruce PG. 2014. The role of LiO2 solubility in O2 reduction in aprotic solvents and its consequences for Li–O2 batteries. Nature Chemistry. 6(12), 1091–1099.

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Journal Article | Published | English
Author
Johnson, Lee; Li, Chunmei; Liu, Zheng; Chen, Yuhui; Freunberger, Stefan AlexanderISTA ; Ashok, Praveen C.; Praveen, Bavishna B.; Dholakia, Kishan; Tarascon, Jean-Marie; Bruce, Peter G.
Abstract
When lithium–oxygen batteries discharge, O2 is reduced at the cathode to form solid Li2O2. Understanding the fundamental mechanism of O2 reduction in aprotic solvents is therefore essential to realizing their technological potential. Two different models have been proposed for Li2O2 formation, involving either solution or electrode surface routes. Here, we describe a single unified mechanism, which, unlike previous models, can explain O2 reduction across the whole range of solvents and for which the two previous models are limiting cases. We observe that the solvent influences O2 reduction through its effect on the solubility of LiO2, or, more precisely, the free energy of the reaction LiO2* ⇌ Li(sol)+ + O2−(sol) + ion pairs + higher aggregates (clusters). The unified mechanism shows that low-donor-number solvents are likely to lead to premature cell death, and that the future direction of research for lithium–oxygen batteries should focus on the search for new, stable, high-donor-number electrolytes, because they can support higher capacities and can better sustain discharge.
Publishing Year
Date Published
2014-11-10
Journal Title
Nature Chemistry
Publisher
Springer Nature
Volume
6
Issue
12
Page
1091-1099
IST-REx-ID

Cite this

Johnson L, Li C, Liu Z, et al. The role of LiO2 solubility in O2 reduction in aprotic solvents and its consequences for Li–O2 batteries. Nature Chemistry. 2014;6(12):1091-1099. doi:10.1038/nchem.2101
Johnson, L., Li, C., Liu, Z., Chen, Y., Freunberger, S. A., Ashok, P. C., … Bruce, P. G. (2014). The role of LiO2 solubility in O2 reduction in aprotic solvents and its consequences for Li–O2 batteries. Nature Chemistry. Springer Nature. https://doi.org/10.1038/nchem.2101
Johnson, Lee, Chunmei Li, Zheng Liu, Yuhui Chen, Stefan Alexander Freunberger, Praveen C. Ashok, Bavishna B. Praveen, Kishan Dholakia, Jean-Marie Tarascon, and Peter G. Bruce. “The Role of LiO2 Solubility in O2 Reduction in Aprotic Solvents and Its Consequences for Li–O2 Batteries.” Nature Chemistry. Springer Nature, 2014. https://doi.org/10.1038/nchem.2101.
L. Johnson et al., “The role of LiO2 solubility in O2 reduction in aprotic solvents and its consequences for Li–O2 batteries,” Nature Chemistry, vol. 6, no. 12. Springer Nature, pp. 1091–1099, 2014.
Johnson L, Li C, Liu Z, Chen Y, Freunberger SA, Ashok PC, Praveen BB, Dholakia K, Tarascon J-M, Bruce PG. 2014. The role of LiO2 solubility in O2 reduction in aprotic solvents and its consequences for Li–O2 batteries. Nature Chemistry. 6(12), 1091–1099.
Johnson, Lee, et al. “The Role of LiO2 Solubility in O2 Reduction in Aprotic Solvents and Its Consequences for Li–O2 Batteries.” Nature Chemistry, vol. 6, no. 12, Springer Nature, 2014, pp. 1091–99, doi:10.1038/nchem.2101.
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