Designing MXene-Wrapped AgCl@Carbon core shell cathode for robust quasi-solid-state Ag-Zn battery with ultralong cycle life

Zhu, Y; Zhu, R; Guan, P; Li, M; Wan, T; Hu, L; Zhang, S; Liu, C; Su, D; Liu, Y; Liu, D; Li, Q; Yu, J; Chu, D

Designing MXene-Wrapped AgCl@Carbon core shell cathode for robust quasi-solid-state Ag-Zn battery with ultralong cycle life

Zhu, Y Zhu, R Guan, P Li, M Wan, T Hu, L Zhang, S Liu, C Su, D

Liu, Y Liu, D Li, Q Yu, J Chu, D

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Publisher:: ELSEVIER
Publication Type:: Journal Article
Citation:: Energy Storage Materials, 2023, 60
Issue Date:: 2023-06-01

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Field	Value	Language
dc.contributor.author	Zhu, Y
dc.contributor.author	Zhu, R
dc.contributor.author	Guan, P
dc.contributor.author	Li, M
dc.contributor.author	Wan, T
dc.contributor.author	Hu, L
dc.contributor.author	Zhang, S
dc.contributor.author	Liu, C
dc.contributor.author	Su, D https://orcid.org/0000-0002-3972-8205
dc.contributor.author	Liu, Y
dc.contributor.author	Liu, D
dc.contributor.author	Li, Q
dc.contributor.author	Yu, J
dc.contributor.author	Chu, D
dc.date.accessioned	2024-03-19T02:17:30Z
dc.date.available	2024-03-19T02:17:30Z
dc.date.issued	2023-06-01
dc.identifier.citation	Energy Storage Materials, 2023, 60
dc.identifier.issn	2405-8297
dc.identifier.issn	2405-8297
dc.identifier.uri	http://hdl.handle.net/10453/176898
dc.description.abstract	Quasi-solid-state silver-zinc (Ag-Zn) batteries, featuring high energy density, stable voltage output, and outstanding safety, have been considered as promising power source for wearable electronics, while they suffer from poor areal capacity and insufficient rechargeability caused by low surface area and structural deterioration of cathode. In this work, we address these problems through redesigning the cathode with core-shell AgCl/carbon fiber structure decorated with MXene nanosheets. Benefiting from the unique structure with high surface area, the capacity is over two times higher than that with irregular morphology, and undesired Ag migration is suppressed owing to MXene protective layer, leading to enhanced structural integrity and ultralong cycle life. Theoretical calculations and experimental result reveal that a heterostructure is formed between MXene and Zn-coated AgCl, stabilizing the cathode structure. The battery demonstrates high capacity of 2.97 mAh cm−2 and impressive cyclability, maintaining 78% of initial capacity after 400 cycles at 4 mA cm−2, with nearly 100% coulombic efficiency. Moreover, robust mechanical flexibility is demonstrated in the separator-free batteries, and they can operate when twisted, cut, put on fire, and sealed in ice, suggesting the viability for practical application scenarios. This work offers pivotal guidance to construct stable electrodes and advanced batteries for powering electronics.
dc.language	English
dc.publisher	ELSEVIER
dc.relation.ispartof	Energy Storage Materials
dc.relation.isbasedon	10.1016/j.ensm.2023.102836
dc.rights	info:eu-repo/semantics/closedAccess
dc.subject	0904 Chemical Engineering, 0906 Electrical and Electronic Engineering
dc.title	Designing MXene-Wrapped AgCl@Carbon core shell cathode for robust quasi-solid-state Ag-Zn battery with ultralong cycle life
dc.type	Journal Article
utslib.citation.volume	60
utslib.for	0904 Chemical Engineering
utslib.for	0906 Electrical and Electronic Engineering
pubs.organisational-group	University of Technology Sydney
pubs.organisational-group	University of Technology Sydney/Faculty of Science
pubs.organisational-group	University of Technology Sydney/Faculty of Science/School of Mathematical and Physical Sciences
pubs.organisational-group	University of Technology Sydney/Strength - CCET - Centre for Clean Energy Technology
utslib.copyright.status	closed_access	*
dc.date.updated	2024-03-19T02:17:27Z
pubs.publication-status	Published
pubs.volume	60

Abstract:

Quasi-solid-state silver-zinc (Ag-Zn) batteries, featuring high energy density, stable voltage output, and outstanding safety, have been considered as promising power source for wearable electronics, while they suffer from poor areal capacity and insufficient rechargeability caused by low surface area and structural deterioration of cathode. In this work, we address these problems through redesigning the cathode with core-shell AgCl/carbon fiber structure decorated with MXene nanosheets. Benefiting from the unique structure with high surface area, the capacity is over two times higher than that with irregular morphology, and undesired Ag migration is suppressed owing to MXene protective layer, leading to enhanced structural integrity and ultralong cycle life. Theoretical calculations and experimental result reveal that a heterostructure is formed between MXene and Zn-coated AgCl, stabilizing the cathode structure. The battery demonstrates high capacity of 2.97 mAh cm−2 and impressive cyclability, maintaining 78% of initial capacity after 400 cycles at 4 mA cm−2, with nearly 100% coulombic efficiency. Moreover, robust mechanical flexibility is demonstrated in the separator-free batteries, and they can operate when twisted, cut, put on fire, and sealed in ice, suggesting the viability for practical application scenarios. This work offers pivotal guidance to construct stable electrodes and advanced batteries for powering electronics.

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http://hdl.handle.net/10453/176898