Stabilizing zinc anodes via engineering the active sites and pore structure of functional composite layers

Functional composite layers composed of an amino-functionalized zirconium 1,4-dicarboxybenzene metal-organic framework were constructed on zinc anodes to mitigate the interface disturbances in aqueous batteries. These layers enable robust Zn adsorption and homogenized Zn transport and deposition kin...

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Veröffentlicht in:	Chemical communications (Cambridge, England) England), 2024-09, Vol.60 (73), p.9962-9965
Hauptverfasser:	Li, Kun, Chen, Jiahao, Xu, Wang, Yan, Zhongfu, Yang, Borui, Li, Ting, He, Miao, Liu, Jing, Hu, Anjun, Long, Jianping
Format:	Artikel
Sprache:	eng
Schlagworte:	Anodes Metal-organic frameworks Zinc Zirconium
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container_title	Chemical communications (Cambridge, England)
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creator	Li, Kun Chen, Jiahao Xu, Wang Yan, Zhongfu Yang, Borui Li, Ting He, Miao Liu, Jing Hu, Anjun Long, Jianping
description	Functional composite layers composed of an amino-functionalized zirconium 1,4-dicarboxybenzene metal-organic framework were constructed on zinc anodes to mitigate the interface disturbances in aqueous batteries. These layers enable robust Zn adsorption and homogenized Zn transport and deposition kinetics, facilitating achieving high stability in a symmetric cell (3500 h) and a full cell (35 000 cycles, 96.7%).
doi_str_mv	10.1039/d4cc03536d
format	Article
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source	Royal Society Of Chemistry Journals; Alma/SFX Local Collection
subjects	Anodes Metal-organic frameworks Zinc Zirconium
title	Stabilizing zinc anodes via engineering the active sites and pore structure of functional composite layers
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