Research progress of carbon materials in the anodes of sodium-ion batteries

IF 8.1 2区 工程技术 Q1 CHEMISTRY, PHYSICAL
Tianshuang Qi, Kai Xiong, Xiong Zhang
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引用次数: 0

Abstract

Sodium-ion batteries (SIBs) have attracted the attention of sustainable energy due to their low cost and availability of sodium. A variety of carbon anode materials such as graphite, hard carbon, soft carbon, and graphene are widely used in sib because of their diversity of structure and chemical properties. These materials store sodium ions differently, and graphite needs to be modified for better performance. Hard and soft carbon provide high capacity but have problems with electrical conductivity and expansion. Carbon nanostructures, including graphene, have many active sites but are expensive to produce. To improve the properties of carbon materials, strategies such as increasing layer spacing, controlling porosity, and introducing defects are discussed. Understanding the structure of the substance and the mechanism of sodium storage is crucial. The future of sib carbon anodes includes the pursuit of green, low-cost materials, and synthesis methods, as well as the use of advanced technologies for material optimization.

Abstract Image

钠离子电池阳极碳材料的研究进展
钠离子电池(SIB)因其低成本和可获得钠而吸引了可持续能源领域的关注。石墨、硬碳、软碳和石墨烯等多种碳负极材料因其结构和化学特性的多样性而被广泛应用于钠离子电池。这些材料储存钠离子的方式不同,石墨需要经过改性才能获得更好的性能。硬碳和软碳具有高容量,但在导电性和膨胀性方面存在问题。包括石墨烯在内的碳纳米结构有许多活性位点,但生产成本高昂。为了改善碳材料的性能,我们讨论了增加层间距、控制孔隙率和引入缺陷等策略。了解物质结构和钠储存机制至关重要。sib碳阳极的未来包括追求绿色、低成本的材料和合成方法,以及使用先进技术进行材料优化。
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来源期刊
Journal of Power Sources
Journal of Power Sources 工程技术-电化学
CiteScore
16.40
自引率
6.50%
发文量
1249
审稿时长
36 days
期刊介绍: The Journal of Power Sources is a publication catering to researchers and technologists interested in various aspects of the science, technology, and applications of electrochemical power sources. It covers original research and reviews on primary and secondary batteries, fuel cells, supercapacitors, and photo-electrochemical cells. Topics considered include the research, development and applications of nanomaterials and novel componentry for these devices. Examples of applications of these electrochemical power sources include: • Portable electronics • Electric and Hybrid Electric Vehicles • Uninterruptible Power Supply (UPS) systems • Storage of renewable energy • Satellites and deep space probes • Boats and ships, drones and aircrafts • Wearable energy storage systems
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