Progress in Modeling and Applications of Solid Electrolyte Interphase Layers for Lithium Metal Anodes
Zhicong Wei, Weitao Zheng, Yijuan Li, Shaoming Huang

TL;DR
This paper reviews progress in modeling and designing solid electrolyte interphase layers to improve the safety and performance of lithium metal batteries.
Contribution
The paper provides a comprehensive review of mathematical modeling and functional characteristics of artificial SEI layers for lithium metal anodes.
Findings
The formation of unstable SEI layers leads to lithium dendrite growth and safety hazards.
Artificial SEI design can enhance battery performance by preventing lithium loss and dendrite formation.
Challenges remain in achieving stable and efficient artificial SEIs for practical battery applications.
Abstract
The increasing demand for high-specific-energy lithium batteries has stimulated extensive research on the lithium metal anode owing to its high specific capacity and low electrode potential. However, the lithium metal will irreversibly react with the electrolyte during the first cycling process, forming an uneven and unstable solid electrolyte interphase (SEI) layer, which results in the non-uniform deposition of Li ions and thus the formation of lithium dendrites. This could cause a battery short circuit, resulting in safety hazards such as thermal runaway. In addition, the continuous rupture and repair of the SEIs during the repeated charge/discharge processes will constantly consume the active lithium, which leads to a significant decrease in battery capacity. An effective strategy to address these challenges is to design and construct ideal artificial SEIs on the surface of the…
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Taxonomy
TopicsAdvancements in Battery Materials · Advanced Battery Materials and Technologies · Advanced Battery Technologies Research
