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Issue 4, 2019
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Energy landscape of the charge transfer reaction at the complex Li/SEI/electrolyte interface

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Abstract

The charge transfer reaction is the fundamental reaction for rechargeable batteries. The energy landscape of this reaction depicts the equilibrium and kinetics of the electrochemical process. Typically, a Li-metal electrode is always covered by a thin layer of solid electrolyte interphase (SEI), forming a complex Li/SEI/electrolyte interface. In this paper, a new modeling framework was developed to predict the energy landscape of the lithiation/delithiation charge transfer reaction at a Li/Li2CO3/EC-electrolyte interface, with combined density functional theory (DFT) and tight-binding (DFTB) calculations. It was found that Li+ ions are much more energetically favorable to be dissolved in the electrolyte on a zero-charged Li-metal electrode, indicating that the SEI is a necessary kinetic barrier to prevent complete solvation of Li-metal into the electrolyte. During delithiation, Li+ ions would be stripped from the surface non-uniformly and form a large void on the Li-metal surface. During lithiation, it was demonstrated that the annihilation of Li+ ions and electrons occurs at the Li/SEI interface, for an idealized defect free SEI. Furthermore, at the experimentally defined zero voltage for Li+/Li0, the Li-metal surface is negatively charged (−0.62 ± 0.12 e nm−2) to maintain the electrochemical equilibrium. The electric field created by the negatively charged surface can reorient the electrolyte into an ordered structure, lower the Li+ ion desolvation energy barrier, and help the Li+ ion transport through the SEI. The charge transfer coefficient, α, in the Butler–Volmer equation was directly computed to be ∼0.22 from the simulated energy landscape, consistent with the experimental measurements. Thus, this model enables a bottom-up multiscale modeling approach for ion-transfer electrochemical reactions.

Graphical abstract: Energy landscape of the charge transfer reaction at the complex Li/SEI/electrolyte interface

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Supplementary files

Article information


Submitted
10 Dec 2018
Accepted
05 Mar 2019
First published
06 Mar 2019

Energy Environ. Sci., 2019,12, 1286-1295
Article type
Paper
Author version available

Energy landscape of the charge transfer reaction at the complex Li/SEI/electrolyte interface

Y. Li and Y. Qi, Energy Environ. Sci., 2019, 12, 1286
DOI: 10.1039/C8EE03586E

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