新兴的锰基水电池:基本认识、挑战和机遇

IF 6.1 Q2 CHEMISTRY, PHYSICAL Chemical physics reviews Pub Date : 2023-05-22 DOI:10.1063/5.0146094
J. Lei, Liwei Jiang, Yi‐Chun Lu
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引用次数: 2

摘要

水性锰基电池由于其低成本、高可逆性和本质安全性,是电网规模储能的有前途的候选者。然而,它们的进一步发展受到有争议的反应机制和低能量密度以及不令人满意的循环稳定性的阻碍。在这里,我们总结了基于活性氧化还原对的各种类型的新兴水性锰基电池,包括Mn0/Mn2+和Mn2+/MnO2的液-固沉积/溶解反应,Mn2+/Mn3+和MnO42-/MnO4−的液-液转化反应,以及XMnOy/MnOy(X:阳离子)以氧化锰为主体材料的固-固嵌入反应。对每种反应中对其物理化学性质的基本理解、科学挑战和改进策略进行了批判性综述。最后,对未来商业化的水性锰基电池设计进行了展望。
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Emerging aqueous manganese-based batteries: Fundamental understanding, challenges, and opportunities
Aqueous manganese (Mn)-based batteries are promising candidates for grid-scale energy storage due to their low-cost, high reversibility, and intrinsic safety. However, their further development is impeded by controversial reaction mechanisms and low energy density with unsatisfactory cycling stability. Here, we summarized various types of emerging aqueous Mn-based batteries based on the active redox couples, including liquid–solid deposition/dissolution reactions of Mn0/Mn2+ and Mn2+/MnO2, liquid–liquid conversion reactions of Mn2+/Mn3+ and MnO42−/MnO4−, and solid–solid intercalation reaction of XMnOy/MnOy (X: cations) with manganese oxide as the host materials. A critical review of the fundamental understanding of their physicochemical properties in each reaction, scientific challenges, and improvement strategies is presented. Finally, perspectives on aqueous Mn-based batteries design for future commercialization are highlighted.
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