Author
Listed:
- Li-Na Song
(Jilin University)
- Wei Zhang
(Jilin University
IKERBASQUE, Basque Foundation for Science)
- Ying Wang
(Changchun Institute of Applied Chemistry Chinese Academy of Sciences)
- Xin Ge
(Jilin University)
- Lian-Chun Zou
(Jilin University)
- Huan-Feng Wang
(Jilin University)
- Xiao-Xue Wang
(Jilin University)
- Qing-Chao Liu
(Zhengzhou University)
- Fei Li
(Jilin University)
- Ji-Jing Xu
(Jilin University
Jilin University)
Abstract
Lithium-oxygen batteries with ultrahigh energy density have received considerable attention as of the future energy storage technologies. The development of effective electrocatalysts and a corresponding working mechanism during cycling are critically important for lithium-oxygen batteries. Here, a single cobalt atom electrocatalyst is synthesized for lithium-oxygen batteries by a polymer encapsulation strategy. The isolated moieties of single atom catalysts can effectively regulate the distribution of active sites to form micrometre-sized flower-like lithium peroxide and promote the decomposition of lithium peroxide by a one-electron pathway. The battery with single cobalt atoms can operate with high round-trip efficiency (86.2%) and long-term stability (218 days), which is superior to a commercial 5 wt% platinum/carbon catalyst. We reveal that the synergy between a single atom and the support endows the catalyst with excellent stability and durability. The promising results provide insights into the design of highly efficient catalysts for lithium-oxygen batteries and greatly expand the scope of future investigation.
Suggested Citation
Li-Na Song & Wei Zhang & Ying Wang & Xin Ge & Lian-Chun Zou & Huan-Feng Wang & Xiao-Xue Wang & Qing-Chao Liu & Fei Li & Ji-Jing Xu, 2020.
"Tuning lithium-peroxide formation and decomposition routes with single-atom catalysts for lithium–oxygen batteries,"
Nature Communications, Nature, vol. 11(1), pages 1-11, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-15712-z
DOI: 10.1038/s41467-020-15712-z
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