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Title: Understanding the Li diffusion mechanism and positive effect of current collector volume expansion in anode free batteries
Authors: Zhuang, Y
Zou, ZY
Lu, B
Li, YJ
Wang, D
Avdeev, M
Shi, S
Keywords: Lithium
Electric batteries
Issue Date: 9-Mar-2020
Publisher: IOP Publishing
Citation: Zhuang, Y., Zou, Z., Lu, B., Li, Y., Wang, D., Avdeev, M., & Shi, S. (2020). Understanding the Li diffusion mechanism and positive effect of current collector volume expansion in anode free batteries. Chinese Physics B, 29(6), 068202. doi:10.1088/1674-1056/ab943c
Abstract: In anode free batteries (AFBs), the current collector acts as anode simultaneously and has large volume expansion which is generally considered as a negative effect decreasing the structural stability of a battery. Moreover, despite many studies on the fast lithium diffusion in the current collector materials of AFB such as copper and aluminum, the involved Li diffusion mechanism in these materials remains poorly understood. Through first-principles calculation and stress-assisted diffusion equations, here we study the Li diffusion mechanism in several current collectors and related alloys and clarify the effect of volume expansion on Li diffusion respectively. It is suggested that due to the lower Li migration barriers in aluminum and tin, they should be more suitable to be used as AFB anodes, compared to copper, silver, and lead. The Li diffusion facilitation in copper with a certain number of vacancies is proposed to explain why the use of copper with a thickness ≤ 100 nm as the protective coating on the anode improves the lifetime of the batteries. We show that the volume expansion has a positive effect on Li diffusion via mechanical–electrochemical coupling. Namely, the volume expansion caused by Li diffusion will further induce stress which in turn affects the diffusion. These findings not only provide in-depth insight into the operating principle of AFBs, but also open a new route toward design of improved anode through utilizing the positive effect of mechanical–electrochemical coupling. © 2020 Chinese Physical Society and IOP Publishing Ltd
ISSN: 1674-1056
Appears in Collections:Journal Articles

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