Issue 24, 2024

Weberite Na2MM′F7 (M, M′ = redox-active metal) as promising fluoride-based sodium-ion battery cathodes

Abstract

Sodium-ion batteries are a viable alternative to lithium-ion technology due to the plentiful sodium resources. However, certain commercialization challenges, such as low specific energies and poor cycling performance of current Na-ion cathodes, still need to be addressed. To overcome these hurdles, this study explored the potential of a novel class of fluoride-based materials, specifically trigonal-type Na2MM′F7 (M and M′ are redox-active metals) belonging to the weberite-type compounds, as promising candidates for Na-ion cathodes. Through a comprehensive assessment utilizing ab initio calculations, twelve prospective compounds were identified, demonstrating high thermodynamic stability, large gravimetric capacities (>170 mA h g−1), and low net Na-ion migration barriers (<600 meV). Significantly, ten out of the twelve screened compounds exhibit high specific energies exceeding 580 W h kg−1 (approximately equal to the specific energy of LiFePO4), indicating their exceptional electrochemical performance. This study will pave the way for further advancements in fluoride-based electrode materials.

Graphical abstract: Weberite Na2MM′F7 (M, M′ = redox-active metal) as promising fluoride-based sodium-ion battery cathodes

Supplementary files

Article information

Article type
Paper
Submitted
21 Mar 2024
Accepted
13 May 2024
First published
14 May 2024

J. Mater. Chem. A, 2024,12, 14709-14720

Weberite Na2MM′F7 (M, M′ = redox-active metal) as promising fluoride-based sodium-ion battery cathodes

T. Lu, S. Meng and M. Liu, J. Mater. Chem. A, 2024, 12, 14709 DOI: 10.1039/D4TA01895H

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