Defect and structural evolution under high-energy ion irradiation informs battery materials design for extreme environments

Defect and structural evolution under high-energy ion irradiation informs battery materials design for extreme environments

Defect and structural evolution are critical in determining the stability of battery materials. Here, the authors use high-energy Kr ion irradiation to induce rapid defect and study structural evolution in Li- and Na-layered cathodes to find that Li-layered cathodes are more resilient under irradiat...

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Autores principales: Muhammad Mominur Rahman, Wei-Ying Chen, Linqin Mu, Zhengrui Xu, Ziqi Xiao, Meimei Li, Xian-Ming Bai, Feng Lin
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/ea92a4db0543441c87724ed7cbf78e63
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spelling oai:doaj.org-article:ea92a4db0543441c87724ed7cbf78e632021-12-02T17:41:08ZDefect and structural evolution under high-energy ion irradiation informs battery materials design for extreme environments10.1038/s41467-020-18345-42041-1723https://doaj.org/article/ea92a4db0543441c87724ed7cbf78e632020-09-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-18345-4https://doaj.org/toc/2041-1723Defect and structural evolution are critical in determining the stability of battery materials. Here, the authors use high-energy Kr ion irradiation to induce rapid defect and study structural evolution in Li- and Na-layered cathodes to find that Li-layered cathodes are more resilient under irradiation.Muhammad Mominur RahmanWei-Ying ChenLinqin MuZhengrui XuZiqi XiaoMeimei LiXian-Ming BaiFeng LinNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-13 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Muhammad Mominur Rahman
Wei-Ying Chen
Linqin Mu
Zhengrui Xu
Ziqi Xiao
Meimei Li
Xian-Ming Bai
Feng Lin
Defect and structural evolution under high-energy ion irradiation informs battery materials design for extreme environments
description Defect and structural evolution are critical in determining the stability of battery materials. Here, the authors use high-energy Kr ion irradiation to induce rapid defect and study structural evolution in Li- and Na-layered cathodes to find that Li-layered cathodes are more resilient under irradiation.
format article
author Muhammad Mominur Rahman
Wei-Ying Chen
Linqin Mu
Zhengrui Xu
Ziqi Xiao
Meimei Li
Xian-Ming Bai
Feng Lin
author_facet Muhammad Mominur Rahman
Wei-Ying Chen
Linqin Mu
Zhengrui Xu
Ziqi Xiao
Meimei Li
Xian-Ming Bai
Feng Lin
author_sort Muhammad Mominur Rahman
title Defect and structural evolution under high-energy ion irradiation informs battery materials design for extreme environments
title_short Defect and structural evolution under high-energy ion irradiation informs battery materials design for extreme environments
title_full Defect and structural evolution under high-energy ion irradiation informs battery materials design for extreme environments
title_fullStr Defect and structural evolution under high-energy ion irradiation informs battery materials design for extreme environments
title_full_unstemmed Defect and structural evolution under high-energy ion irradiation informs battery materials design for extreme environments
title_sort defect and structural evolution under high-energy ion irradiation informs battery materials design for extreme environments
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/ea92a4db0543441c87724ed7cbf78e63
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AT weiyingchen defectandstructuralevolutionunderhighenergyionirradiationinformsbatterymaterialsdesignforextremeenvironments
AT linqinmu defectandstructuralevolutionunderhighenergyionirradiationinformsbatterymaterialsdesignforextremeenvironments
AT zhengruixu defectandstructuralevolutionunderhighenergyionirradiationinformsbatterymaterialsdesignforextremeenvironments
AT ziqixiao defectandstructuralevolutionunderhighenergyionirradiationinformsbatterymaterialsdesignforextremeenvironments
AT meimeili defectandstructuralevolutionunderhighenergyionirradiationinformsbatterymaterialsdesignforextremeenvironments
AT xianmingbai defectandstructuralevolutionunderhighenergyionirradiationinformsbatterymaterialsdesignforextremeenvironments
AT fenglin defectandstructuralevolutionunderhighenergyionirradiationinformsbatterymaterialsdesignforextremeenvironments
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