Highly dispersed RuCo clusters on N-doped carbon shell for Li–O 2 /CO 2 batteries and exploitation of the synergistic effect of O 2 and CO 2

Li–O 2 /CO 2 batteries are of central importance for environmentally friendly energy technologies. However, the battery performance still needs to be improved, while the factors affecting the battery capacity are still ambiguous. Herein, we directly synthesized a series of N-doped carbon shell-encap...

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Published in:Catalysis science & technology 2023-01, Vol.13 (2), p.573-580
Main Authors: Lian, Yuebin, Xiao, Long, Yang, Xiaoyu, Xu, Weilong, Du, Xiaojiao, Hong, Yilun, Zheng, Min, Peng, Yang
Format: Article
Language:English
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Summary:Li–O 2 /CO 2 batteries are of central importance for environmentally friendly energy technologies. However, the battery performance still needs to be improved, while the factors affecting the battery capacity are still ambiguous. Herein, we directly synthesized a series of N-doped carbon shell-encapsulated RuCo clusters to improve the battery performance as well as to deeply investigate the catalytic mechanism. Due to the porous structure and evenly dispersed RuCo alloy, the obtained Li–O 2 /CO 2 battery showed excellent discharge and charge performance as well as a long-time cyclic stability of 550 h and 560 cycles. In addition, the catalytic pathway was verified by comparing the discharge voltage of Li–O 2 and Li–O 2 /CO 2 , which confirmed the route of 4Li + + O 2 + 2CO 2 + 4e − = 2Li 2 CO 3 . To evaluate the effects of O 2 during the discharge process, the catalytic kinetics and battery capacity were verified by monitoring the capacity–current rate–O 2 content relationship. In conclusion, the capacity of Li–O 2 /CO 2 batteries relies on a balance of both the discharge current and O 2 -diffusion rate as well as the crystallization process of Li 2 CO 3 .
ISSN:2044-4753
2044-4761
DOI:10.1039/D2CY01620F