Recent advances in alloying anode materials for sodium-ion batteries: material design and prospects

A. Rehman, Sanum Saleem, Shahid Ali, S. M. Abbas, Minsu Choi, Wonchang Choi
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Abstract

Sodium-ion batteries (SIBs) are close to commercialization. Although alloying anodes have potential use in next-generation SIB anodes, their limitations of low capacities and colossal volume expansions must be resolved. Traditional approaches involving structural and compositional tunings have not been able to break these lofty barriers. This review is devoted to recent progress in research on alloy-based SIB anodes comprising Sn, Sb, P, Ge, and Si. The current level of understanding, challenges, modifications, optimizations employed up to date, and shortfalls faced by alloying anodes are also described. A detailed future outlook is proposed, focusing on advanced nanomaterial tailoring methods and component modifications in SIB fabrication. Utilizing the latest state-of-the-art characterization techniques, including ex-situ and operando characterization tools, can help us better understand the (de)sodiation mechanism and accompanying capacity fading pathways to pave the way for next-generation SIBs with alloying anode materials.
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钠离子电池阳极合金材料的最新进展:材料设计与前景
钠离子电池(SIB)已接近商业化。虽然合金阳极在下一代钠离子电池阳极中具有潜在用途,但必须解决其容量低和体积膨胀巨大的局限性。涉及结构和成分调整的传统方法还无法打破这些巨大的障碍。本综述将专门介绍由 Sn、Sb、P、Ge 和 Si 组成的合金基 SIB 阳极的最新研究进展。文中还介绍了目前对合金阳极的认识水平、挑战、修改、迄今为止所采用的优化方法以及所面临的不足。还提出了详细的未来展望,重点关注先进的纳米材料定制方法和 SIB 制造中的组件改性。利用最先进的表征技术,包括原位和操作表征工具,可以帮助我们更好地理解(去)钠化机制和伴随的容量衰减途径,从而为采用合金阳极材料的下一代 SIB 铺平道路。
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