Multiscale dynamics of charging and plating in graphite electrodes coupling operando microscopy and phase-field modelling

Author(s)

Lu, Xuekun; Lagnoni, Marco; Bertei, Antonio; Das, Supratim; Owen, Rhodri E; Li, Qi; O’Regan, Kieran; Wade, Aaron; Finegan, Donal P; Kendrick, Emma; Bazant, Martin Z; Brett, Dan JL; Shearing, Paul R; ... Show more Show less

Abstract

The phase separation dynamics in graphitic anodes significantly affects lithium plating propensity, which is the major degradation mechanism that impairs the safety and fast charge capabilities of automotive lithium-ion batteries. In this study, we present comprehensive investigation employing operando high-resolution optical microscopy combined with non-equilibrium thermodynamics implemented in a multi-dimensional (1D+1D to 3D) phase-field modeling framework to reveal the rate-dependent spatial dynamics of phase separation and plating in graphite electrodes. Here we visualize and provide mechanistic understanding of the multistage phase separation, plating, inter/intra-particle lithium exchange and plated lithium back-intercalation phenomena. A strong dependence of intra-particle lithiation heterogeneity on the particle size, shape, orientation, surface condition and C-rate at the particle level is observed, which leads to early onset of plating spatially resolved by a 3D image-based phase-field model. Moreover, we highlight the distinct relaxation processes at different state-of-charges (SOCs), wherein thermodynamically unstable graphite particles undergo a drastic intra-particle lithium redistribution and inter-particle lithium exchange at intermediate SOCs, whereas the electrode equilibrates much slower at low and high SOCs. These physics-based insights into the distinct SOC-dependent relaxation efficiency provide new perspective towards developing advanced fast charge protocols to suppress plating and shorten the constant voltage regime.

Date issued

2023

URI

https://hdl.handle.net/1721.1/157522

Department

Massachusetts Institute of Technology. Department of Chemical Engineering
Massachusetts Institute of Technology. Department of Mathematics

Journal

Nature Communications

Publisher

Springer Science and Business Media LLC

Citation

Lu, X., Lagnoni, M., Bertei, A. et al. Multiscale dynamics of charging and plating in graphite electrodes coupling operando microscopy and phase-field modelling. Nat Commun 14, 5127 (2023).

Version: Final published version