锌金属负极的温度依赖性成核与电化学性能

Temperature-Dependent Nucleation and Electrochemical Performance of Zn Metal Anodes.

作者信息

Su Jiaran, Yin Xiuxiu, Zhao Hainan, Yang Hejie, Yang Di, He Li, Wang Meiling, Jin Shirui, Zhao Kangning, Wang Yizhan, Wei Yingjin

机构信息

Key Laboratory of Physics and Technology for Advanced Batteries (Ministry of Education), College of Physics, Jilin University, Changchun 130012, China.

School of Materials Science and Engineering, Beihua University, Jilin 132013, China.

出版信息

Nano Lett. 2022 Feb 23;22(4):1549-1556. doi: 10.1021/acs.nanolett.1c04353. Epub 2022 Feb 8.

DOI:10.1021/acs.nanolett.1c04353

PMID:35133161

Abstract

A fundamental understanding of the nucleation and growth behaviors of Zn metal anodes over a wide range of temperatures is of great value for suppressing Zn dendrite growth. However, work focused on the early nucleation and growth behavior of Zn metal at various temperatures is still absent. Here, we study the effect of cycling temperature on Zn nuclei size and areal density and find that low temperature induces a smaller and dense nucleus, which prevents the formation of dendrites. Based on this finding, a cooling-treatment-based self-healing strategy is developed to in situ eliminate dendrites, which effectively prolongs the lifespan of the Zn anode by 520%. This novel self-healing strategy could be employed as a reliable strategy for restoring batteries in situ to reach a longer lifespan.

摘要

深入了解锌金属负极在广泛温度范围内的成核和生长行为对于抑制锌枝晶生长具有重要价值。然而，目前仍缺乏针对不同温度下锌金属早期成核和生长行为的研究。在此，我们研究了循环温度对锌核尺寸和面积密度的影响，发现低温会诱导形成更小且致密的核，从而防止枝晶的形成。基于这一发现，我们开发了一种基于冷却处理的自修复策略来原位消除枝晶，这有效地将锌负极的寿命延长了520%。这种新型自修复策略可作为一种可靠的策略，用于原位修复电池以实现更长的寿命。

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锌金属负极的温度依赖性成核与电化学性能

Temperature-Dependent Nucleation and Electrochemical Performance of Zn Metal Anodes.

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