A reversible and higher-rate Li-O2 battery
Peng Z, Freunberger SA, Chen Y, Bruce PG. 2012. A reversible and higher-rate Li-O2 battery. Science. 337(6094), 563–566.
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Journal Article
| Published
| English
Author
Peng, Z.;
Freunberger, Stefan AlexanderISTA ;
Chen, Y.;
Bruce, P. G.
Abstract
The rechargeable nonaqueous lithium-air (Li-O2) battery is receiving a great deal of interest because, theoretically, its specific energy far exceeds the best that can be achieved with lithium-ion cells. Operation of the rechargeable Li-O2 battery depends critically on repeated and highly reversible formation/decomposition of lithium peroxide (Li2O2) at the cathode upon cycling. Here, we show that this process is possible with the use of a dimethyl sulfoxide electrolyte and a porous gold electrode (95% capacity retention from cycles 1 to 100), whereas previously only partial Li2O2 formation/decomposition and limited cycling could occur. Furthermore, we present data indicating that the kinetics of Li2O2 oxidation on charge is approximately 10 times faster than on carbon electrodes.
Publishing Year
Date Published
2012-08-03
Journal Title
Science
Publisher
AAAS
Volume
337
Issue
6094
Page
563-566
IST-REx-ID
Cite this
Peng Z, Freunberger SA, Chen Y, Bruce PG. A reversible and higher-rate Li-O2 battery. Science. 2012;337(6094):563-566. doi:10.1126/science.1223985
Peng, Z., Freunberger, S. A., Chen, Y., & Bruce, P. G. (2012). A reversible and higher-rate Li-O2 battery. Science. AAAS. https://doi.org/10.1126/science.1223985
Peng, Z., Stefan Alexander Freunberger, Y. Chen, and P. G. Bruce. “A Reversible and Higher-Rate Li-O2 Battery.” Science. AAAS, 2012. https://doi.org/10.1126/science.1223985.
Z. Peng, S. A. Freunberger, Y. Chen, and P. G. Bruce, “A reversible and higher-rate Li-O2 battery,” Science, vol. 337, no. 6094. AAAS, pp. 563–566, 2012.
Peng Z, Freunberger SA, Chen Y, Bruce PG. 2012. A reversible and higher-rate Li-O2 battery. Science. 337(6094), 563–566.
Peng, Z., et al. “A Reversible and Higher-Rate Li-O2 Battery.” Science, vol. 337, no. 6094, AAAS, 2012, pp. 563–66, doi:10.1126/science.1223985.