钠离子电池材料综述:进展与性能挑战

Akda Zahrotul Wathoni , Kartika A. Madurani , Chin Wei Lai , Fredy Kurniawan
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引用次数: 0

摘要

钠离子电池(sib)已成为锂离子电池的一种有前途的可持续能源存储替代品。它的广泛可用性和较低的成本使其成为未来能源存储解决方案的一个有吸引力的选择。本文分析了sib中的关键材料,包括阴极、阳极、电解质和隔膜,重点介绍了最近的进展和存在的挑战。本文综述的阳极材料包括碳质材料、金属合金和有机材料。这些阳极材料面临的限制,如显著的体积膨胀和离子电导率差。讨论的正极材料包括过渡金属氧化物、聚阴离子化合物和普鲁士蓝类似物,它们遇到了与结构稳定性和离子电导率相关的挑战。探索这些材料的组合为生产具有未来储能潜力的高性能钠离子电池提供了一种有前途的策略。本文还讨论了电解质和隔膜材料,分析了液体、固体和半固体电解质的优缺点。最后,它解决了sib的封装和安全挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Comprehensive review of sodium-ion battery materials: Advances and performance challenges

Comprehensive review of sodium-ion battery materials: Advances and performance challenges
Sodium-ion batteries (SIBs) have emerged as a promising alternative to lithium-ion batteries for sustainable energy storage. Its widespread availability and lower cost make it an attractive option for future energy storage solutions. This review provides an analysis of the key materials in SIBs, including cathodes, anodes, electrolytes, and separators, highlighting recent advancements and existing challenges. The anode materials reviewed in this article include carbonaceous materials, metal alloys, and organic materials. These anode materials face constraints such as significant volume expansion and poor ionic conductivity. The cathode materials discussed include transition metal oxides, polyanionic compounds, and Prussian Blue analogues, which encounter challenges related to structural stability and ionic conductivity. Exploring the combination of these materials presents a promising strategy for producing high-performance sodium-ion batteries with the potential for future energy storage. The review also discusses electrolyte and separator materials, examining the advantages and disadvantages of liquid, solid, and semi-solid electrolytes. Finally, it addresses the packaging and safety challenges of SIBs.
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