The role of grain boundaries in solid-state Li-metal batteries

Materials Futures Pub Date : 2022-11-29 DOI:10.1088/2752-5724/aca703

Emily Milan, M. Pasta

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引用次数: 6

Abstract

Despite the potential advantages promised by solid-state batteries, the success of solid-state electrolytes has not yet been fully realised. This is due in part to the lower ionic conductivity of solid electrolytes. In many solid superionic conductors, grain boundaries are found to be ionically resistive and hence contribute to this lower ionic conductivity. Additionally, in spite of the hope that solid electrolytes would inhibit lithium filaments, in most scenarios their growth is still observed, and in some polycrystalline systems this is suggested to occur along grain boundaries. It is apparent that grain boundaries affect the performance of solid-state electrolytes, however a deeper understanding is lacking. In this perspective, the current theories relating to grain boundaries in solid-state electrolytes are explored, as well as addressing some of the challenges which arise when trying to investigate their role. Glasses are presented as a possible solution to reduce the effect of grain boundaries in electrolytes. Future research directions are suggested which will aid in both understanding the role of grain boundaries, and diminishing their contribution in cases where they are detrimental.

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晶界在固态锂金属电池中的作用

尽管固态电池具有潜在的优势，但固态电解质的成功尚未完全实现。这部分是由于固体电解质的离子导电性较低。在许多固体超离子导体中，发现晶界具有离子电阻性，因此有助于降低离子电导率。此外，尽管固体电解质有望抑制锂细丝，但在大多数情况下，它们的生长仍然被观察到，在一些多晶体系中，这被认为是沿着晶界发生的。很明显，晶界影响固态电解质的性能，但缺乏更深入的了解。从这个角度来看，目前有关固态电解质晶界的理论进行了探索，并解决了在试图研究它们的作用时出现的一些挑战。玻璃是一种可能的解决方案，以减少晶界在电解质中的影响。提出了未来的研究方向，这将有助于理解晶界的作用，并在它们有害的情况下减少它们的贡献。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Materials Futures

CiteScore

7.40

自引率

0.00%

发文量