Existence of solution to a system of PDEs modelling the crystal growth inside lithium batteries

I. Alexandros Skouras; Omar Lakkis; Vanessa Styles

doi:10.4171/ifb/565

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Existence of solution to a system of PDEs modelling the crystal growth inside lithium batteries

I. Alexandros Skouras
Université de Montpellier, France
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Omar Lakkis
University of Sussex, Brighton, UK
Vanessa Styles
University of Sussex, Brighton, UK

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Abstract

We study a model for lithium (Li) electrodeposition on Li-metal electrodes that leads to dendritic pattern formation. The model comprises of a system of three coupled PDEs, taking the form of an Allen–Cahn equation, a Nernst–Planck equation, and a Poisson equation. We prove the existence of a weak solution and stability results for this system and present numerical simulations resulting from a finite-element approximation of the system, which illustrate the dendritic nature of solutions to the model.

Cite this article

I. Alexandros Skouras, Omar Lakkis, Vanessa Styles, Existence of solution to a system of PDEs modelling the crystal growth inside lithium batteries. Interfaces Free Bound. (2026), published online first

DOI 10.4171/IFB/565