University of Wollongong
Browse

Chevrel Phase Mo6T8 (T = S, Se) as Electrodes for Advanced Energy Storage

Download (1.52 MB)
journal contribution
posted on 2024-11-16, 05:07 authored by Lin Mei, Jiantie Xu, Zengxi Wei, Hua LiuHua Liu, Yutao Li, Jianmin Ma, Shi DouShi Dou
With the large-scale applications of electric vehicles in recent years, future batteries are required to be higher in power and possess higher energy densities, be more environmental friendly, and have longer cycling life, lower cost, and greater safety than current batteries. Therefore, to develop alternative electrode materials for advanced batteries is an important research direction. Recently, the Chevrel phase Mo 6 T 8 (T = S, Se) has attracted increasing attention as electrode candidate for advanced batteries, including monovalent (e.g., lithium and sodium) and multivalent (e.g., magnesium, zinc and aluminum) ion batteries. Benefiting from its unique open crystal structure, the Chevrel phase Mo 6 T 8 cannot only ensure rapid ion transport, but also retain the structure stability during electrochemical reactions. Although the history of the research on Mo 6 T 8 as electrodes for advanced batteries is short, there has been significant progress on the design and fabrication of Mo 6 T 8 for various advanced batteries as above mentioned. An overview of the recent progress on Mo 6 T 8 electrodes applied in advanced batteries is provided, including synthesis methods and diverse structures for Mo 6 T 8 , and electrochemical mechanism and performance of Mo 6 T 8 . Additionally, a briefly conclusion on the significant progress, obvious drawbacks, emerging challenges and some perspectives on the research of Mo 6 T 8 for advanced batteries in the near future is provided.

Funding

Multifunctional 2D materials for sustainable energy applications

Australian Research Council

Find out more...

History

Citation

Mei, L., Xu, J., Wei, Z., Liu, H., Li, Y., Ma, J. & Dou, S. (2017). Chevrel Phase Mo6T8 (T = S, Se) as Electrodes for Advanced Energy Storage. Small, 13 (34), 1701441 -1-1701441 -11.

Journal title

Small

Volume

13

Issue

34

Language

English

RIS ID

115555

Usage metrics

    Categories

    Keywords

    Exports

    RefWorks
    BibTeX
    Ref. manager
    Endnote
    DataCite
    NLM
    DC