Self-Healing Mechanism of Lithium in Lithium Metal

JY Jiao and GM Lai and L Zhao and JZ Lu and QD Li and XQ Xu and Y Jiang and YB He and CY Ouyang and F Pan and H Li and JX Zheng, ADVANCED SCIENCE, 9, 2105574 (2022).

DOI: 10.1002/advs.202105574

Li is an ideal anode material for use in state-of-the-art secondary batteries. However, Li-dendrite growth is a safety concern and results in low coulombic efficiency, which significantly restricts the commercial application of Li secondary batteries. Unfortunately, the Li- deposition (growth) mechanism is poorly understood on the atomic scale. Here, machine learning is used to construct a Li potential model with quantum-mechanical computational accuracy. Molecular dynamics simulations in this study with this model reveal two self-healing mechanisms in a large Li-metal system, viz. surface self-healing, and bulk self-healing. It is concluded that self-healing occurs rapidly in nanoscale; thus, minimizing the voids between the Li grains using several comprehensive methods can effectively facilitate the formation of dendrite-free Li.

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