钠基电池:发展、商业化之旅和新兴化学

IF 2.9 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Oxford open materials science Pub Date : 2022-12-26 DOI:10.1093/oxfmat/itac019
Poonam Yadav, V. Shelke, Apurva Patrike, M. Shelke
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引用次数: 3

摘要

lib的开发、商业化和使用将很快达到顶峰。目前,由于锂离子电池的分布受限和缺乏有效的锂回收技术,这对锂离子电池的原材料供应构成了未来的风险。sbb被认为是lib的最佳替代品,因为它们在化学和制造技术上相似。然而,SBB技术能量密度不高,还不够成熟,无法满足广泛应用领域的能量需求。科学家们正在优化不同的阳极、阴极和电解质材料,以及制造技术,以提高SBB的电化学性能。已经成立了几家公司将SBB技术商业化。本文综述了不同SBB化学品的发展及其商业化情况。它还讨论了在sbb的未来发展和商业化中似乎有希望的化学物质。
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Sodium Based Batteries: Development, Commercialization Journey and New Emerging Chemistries
Development, commercialization, and use of LIBs will reach their peak soon. At present, this is posing the future risk of supply of raw materials for LIBs due to their restricted distribution and lack of effective Li-recycling technology. SBBs are considered the best alternative to LIBs due to their similarity in chemistries and fabrication techniques. However, SBB technology does not have high energy density and is not mature enough yet to meet the energy requirement of wide application sectors. Scientists are optimizing different anode, cathode, and electrolyte materials, and fabrication techniques to boost the electrochemical performance of SBB. Several companies have been founded to commercialize the SBB technology. This review summarizes the development of different SBB chemistries and their commercialization by companies. It also discusses chemistries that seem promising in the future development and commercialization of SBBs.
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CiteScore
3.60
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0.00%
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审稿时长
7 weeks
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