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Building electrode skins for ultra-stable potassium metal batteries

Engineering and Technology

Building electrode skins for ultra-stable potassium metal batteries

H. Ding, J. Wang, et al.

Discover the innovative metal electrode skin (MES) that mimics human skin to enhance the stability of potassium metal batteries. This remarkable advancement, led by authors Hongbo Ding, Jue Wang, Jiang Zhou, Chengxin Wang, and Bingan Lu, demonstrates a significant leap in battery technology with impressive cycle performances exceeding 5000 cycles.... show more
Abstract
In nature, the human body is a perfect self-organizing and self-repairing system, with the skin protecting the internal organs and tissues from external damages. In this work, inspired by the human skin, we design a metal electrode skin (MES) to protect the metal interface. MES can increase the flatness of electrode and uniform the electric field distribution, inhibiting the growth of dendrites. In detail, an artificial film made of fluorinated graphene oxide serves as the first protection layer. At molecular level, fluorine is released and in-situ formed a robust SEI as the second protection "skin" for metal anode. As a result, Cu@MES || K asymmetric cell is able to achieve an unprecedented cycle life (over 1600 cycles). More impressively, the full cell of K@MES || Prussian blue exhibits a long cycle lifespan over 5000 cycles. This work illustrates a mechanism for metal electrode protection and provides a strategy for the applying bionics in batteries.
Publisher
Nature Communications
Published On
Apr 21, 2023
Authors
Hongbo Ding, Jue Wang, Jiang Zhou, Chengxin Wang, Bingan Lu
DOI
https://doi.org/10.1038/s41467-023-38065-9
Tags
metal electrode skin
potassium metal batteries
fluorinated graphene oxide
solid electrolyte interphase
dendrite growth
battery stability

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