Engineering Artificial Protrusions of Zn Anodes for Aqueous Zinc Batteries

Jifei Sun; Xinhua Zheng; Zhengxin Zhu; Mingming Wang; Yan Xu; Ke Li; Yuan Yuan; Mingyan Chuai; Zaichun Liu; Taoli Jiang; Hanlin Hu; Wei Chen

doi:10.1021/acs.nanolett.4c06347

Engineering Artificial Protrusions of Zn Anodes for Aqueous Zinc Batteries

Jifei Sun, Xinhua Zheng, Zhengxin Zhu, Mingming Wang, Yan Xu, Ke Li, Yuan Yuan, Mingyan Chuai, Zaichun Liu, Taoli Jiang, Hanlin Hu, Wei Chen

Research output: Contribution to journal › Article › peer-review

Abstract

Uncontrollable dendrite growth can jeopardize the cycle life of aqueous Zn batteries. Here, we propose a general strategy of engineering artificial protrusions (APs) on the electrode surface to regulate the distribution of the electrode interface electric field and induce stable Zn plating/stripping for Zn batteries. The junction-free AP-Cu network is constructed on Cu foil by an ultrafast Joule-heating-welding method. COMSOL simulation reveals that a stronger microelectric field is formed around the individual AP, which can effectively regulate a uniform nucleation of Zn on the AP-Cu network. Guided by the structural advantages of the AP design, the AP-Cu∥Zn cell delivers an average Coulombic efficiency (CE) of 99.85% at 2 C with an areal capacity of 1.77 mAh cm^-2 for over 3000 cycles. Moreover, the AP design enables stable cycling of both Zn|AP-Cu∥V₂O₅ and anode-free AP-Cu∥Br₂ full cells, providing a promising strategy for the development of high-performance energy storage devices.

Original language	English
Pages (from-to)	7266-7275
Number of pages	10
Journal	Nano Letters
Volume	25
Issue number	18
DOIs	https://doi.org/10.1021/acs.nanolett.4c06347
State	Published - 7 May 2025
Externally published	Yes

Keywords

Cu nanowires
Joule-heating
Zn anode
artificial protrusion
dendrite-free
large-scale energy storage

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10.1021/acs.nanolett.4c06347

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title = "Engineering Artificial Protrusions of Zn Anodes for Aqueous Zinc Batteries",

abstract = "Uncontrollable dendrite growth can jeopardize the cycle life of aqueous Zn batteries. Here, we propose a general strategy of engineering artificial protrusions (APs) on the electrode surface to regulate the distribution of the electrode interface electric field and induce stable Zn plating/stripping for Zn batteries. The junction-free AP-Cu network is constructed on Cu foil by an ultrafast Joule-heating-welding method. COMSOL simulation reveals that a stronger microelectric field is formed around the individual AP, which can effectively regulate a uniform nucleation of Zn on the AP-Cu network. Guided by the structural advantages of the AP design, the AP-Cu∥Zn cell delivers an average Coulombic efficiency (CE) of 99.85% at 2 C with an areal capacity of 1.77 mAh cm-2 for over 3000 cycles. Moreover, the AP design enables stable cycling of both Zn|AP-Cu∥V2O5 and anode-free AP-Cu∥Br2 full cells, providing a promising strategy for the development of high-performance energy storage devices.",

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author = "Jifei Sun and Xinhua Zheng and Zhengxin Zhu and Mingming Wang and Yan Xu and Ke Li and Yuan Yuan and Mingyan Chuai and Zaichun Liu and Taoli Jiang and Hanlin Hu and Wei Chen",

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doi = "10.1021/acs.nanolett.4c06347",

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AU - Sun, Jifei

AU - Zheng, Xinhua

AU - Zhu, Zhengxin

AU - Wang, Mingming

AU - Xu, Yan

AU - Li, Ke

AU - Yuan, Yuan

AU - Chuai, Mingyan

AU - Liu, Zaichun

AU - Jiang, Taoli

AU - Hu, Hanlin

AU - Chen, Wei

PY - 2025/5/7

Y1 - 2025/5/7

N2 - Uncontrollable dendrite growth can jeopardize the cycle life of aqueous Zn batteries. Here, we propose a general strategy of engineering artificial protrusions (APs) on the electrode surface to regulate the distribution of the electrode interface electric field and induce stable Zn plating/stripping for Zn batteries. The junction-free AP-Cu network is constructed on Cu foil by an ultrafast Joule-heating-welding method. COMSOL simulation reveals that a stronger microelectric field is formed around the individual AP, which can effectively regulate a uniform nucleation of Zn on the AP-Cu network. Guided by the structural advantages of the AP design, the AP-Cu∥Zn cell delivers an average Coulombic efficiency (CE) of 99.85% at 2 C with an areal capacity of 1.77 mAh cm-2 for over 3000 cycles. Moreover, the AP design enables stable cycling of both Zn|AP-Cu∥V2O5 and anode-free AP-Cu∥Br2 full cells, providing a promising strategy for the development of high-performance energy storage devices.

AB - Uncontrollable dendrite growth can jeopardize the cycle life of aqueous Zn batteries. Here, we propose a general strategy of engineering artificial protrusions (APs) on the electrode surface to regulate the distribution of the electrode interface electric field and induce stable Zn plating/stripping for Zn batteries. The junction-free AP-Cu network is constructed on Cu foil by an ultrafast Joule-heating-welding method. COMSOL simulation reveals that a stronger microelectric field is formed around the individual AP, which can effectively regulate a uniform nucleation of Zn on the AP-Cu network. Guided by the structural advantages of the AP design, the AP-Cu∥Zn cell delivers an average Coulombic efficiency (CE) of 99.85% at 2 C with an areal capacity of 1.77 mAh cm-2 for over 3000 cycles. Moreover, the AP design enables stable cycling of both Zn|AP-Cu∥V2O5 and anode-free AP-Cu∥Br2 full cells, providing a promising strategy for the development of high-performance energy storage devices.

KW - Cu nanowires

KW - Joule-heating

KW - Zn anode

KW - artificial protrusion

KW - dendrite-free

KW - large-scale energy storage

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DO - 10.1021/acs.nanolett.4c06347

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JO - Nano Letters

JF - Nano Letters

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ER -

Engineering Artificial Protrusions of Zn Anodes for Aqueous Zinc Batteries

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