Boosting oxygen reduction activity and enhancing stability through structural transformation of layered lithium manganese oxide

Boosting oxygen reduction activity and enhancing stability through structural transformation of layered lithium manganese oxide

Structural degradation in manganese oxides leads to unstable activity during long-term cycles. Herein, authors demonstrated that reduced unstable O 2p holes and the short interlayer distance of layered lithium manganese oxide are favorable for excellent electrocatalytic stability and activity.

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Autores principales: Xuepeng Zhong, M’hamed Oubla, Xiao Wang, Yangyang Huang, Huiyan Zeng, Shaofei Wang, Kun Liu, Jian Zhou, Lunhua He, Haihong Zhong, Nicolas Alonso-Vante, Chin-Wei Wang, Wen-Bin Wu, Hong-Ji Lin, Chien-Te Chen, Zhiwei Hu, Yunhui Huang, Jiwei Ma
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Q
Acceso en línea:https://doaj.org/article/46744f72df1c46a0a8d1ceaee0c36709
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spelling oai:doaj.org-article:46744f72df1c46a0a8d1ceaee0c367092021-12-02T15:00:49ZBoosting oxygen reduction activity and enhancing stability through structural transformation of layered lithium manganese oxide10.1038/s41467-021-23430-32041-1723https://doaj.org/article/46744f72df1c46a0a8d1ceaee0c367092021-05-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-23430-3https://doaj.org/toc/2041-1723Structural degradation in manganese oxides leads to unstable activity during long-term cycles. Herein, authors demonstrated that reduced unstable O 2p holes and the short interlayer distance of layered lithium manganese oxide are favorable for excellent electrocatalytic stability and activity.Xuepeng ZhongM’hamed OublaXiao WangYangyang HuangHuiyan ZengShaofei WangKun LiuJian ZhouLunhua HeHaihong ZhongNicolas Alonso-VanteChin-Wei WangWen-Bin WuHong-Ji LinChien-Te ChenZhiwei HuYunhui HuangJiwei MaNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-12 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Xuepeng Zhong
M’hamed Oubla
Xiao Wang
Yangyang Huang
Huiyan Zeng
Shaofei Wang
Kun Liu
Jian Zhou
Lunhua He
Haihong Zhong
Nicolas Alonso-Vante
Chin-Wei Wang
Wen-Bin Wu
Hong-Ji Lin
Chien-Te Chen
Zhiwei Hu
Yunhui Huang
Jiwei Ma
Boosting oxygen reduction activity and enhancing stability through structural transformation of layered lithium manganese oxide
description Structural degradation in manganese oxides leads to unstable activity during long-term cycles. Herein, authors demonstrated that reduced unstable O 2p holes and the short interlayer distance of layered lithium manganese oxide are favorable for excellent electrocatalytic stability and activity.
format article
author Xuepeng Zhong
M’hamed Oubla
Xiao Wang
Yangyang Huang
Huiyan Zeng
Shaofei Wang
Kun Liu
Jian Zhou
Lunhua He
Haihong Zhong
Nicolas Alonso-Vante
Chin-Wei Wang
Wen-Bin Wu
Hong-Ji Lin
Chien-Te Chen
Zhiwei Hu
Yunhui Huang
Jiwei Ma
author_facet Xuepeng Zhong
M’hamed Oubla
Xiao Wang
Yangyang Huang
Huiyan Zeng
Shaofei Wang
Kun Liu
Jian Zhou
Lunhua He
Haihong Zhong
Nicolas Alonso-Vante
Chin-Wei Wang
Wen-Bin Wu
Hong-Ji Lin
Chien-Te Chen
Zhiwei Hu
Yunhui Huang
Jiwei Ma
author_sort Xuepeng Zhong
title Boosting oxygen reduction activity and enhancing stability through structural transformation of layered lithium manganese oxide
title_short Boosting oxygen reduction activity and enhancing stability through structural transformation of layered lithium manganese oxide
title_full Boosting oxygen reduction activity and enhancing stability through structural transformation of layered lithium manganese oxide
title_fullStr Boosting oxygen reduction activity and enhancing stability through structural transformation of layered lithium manganese oxide
title_full_unstemmed Boosting oxygen reduction activity and enhancing stability through structural transformation of layered lithium manganese oxide
title_sort boosting oxygen reduction activity and enhancing stability through structural transformation of layered lithium manganese oxide
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/46744f72df1c46a0a8d1ceaee0c36709
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