Journal article

Suppressing O-type stacking and cation migration with Mg and Si doping in P2-type Fe–Mn layered oxides for sodium-ion cathodes †

Abstract:: Layered oxide cathodes for Na-ion batteries containing Mn or Fe are of considerable interest for sustainable energy storage applications largely due to cost issues, relative abundance and high capacities. However, these layered cathodes such as NaxFe0.5Mn0.5O2 exhibit a structural phase transformation (from P2 to O2) at high charge states accompanied by irreversible cation migration into the Na layers and formation of trapped O2. Here we investigate whether doping into NaxFe0.5Mn0.5O2 can effectively suppress this phase transformation and cation migration, focusing on the atomic-scale effects of Mg2+ and Si4+ substitution, using ab initio simulation techniques. These dopants are contrasting species in terms of bonding character from divalent ionic (Mg) to tetravalent covalent (Si). Our study indicates that Mg-doping delayed Fe migration into the Na-layers in line with the experiment. In contrast, Si-doping stabilised the P2 phase over the entire charging range and suppresses Fe migration with no O–O dimer formation, suggesting that the Si-doped system should be a promising Na-ion cathode material.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Chakraborty, A., House, R. A., & Islam, M. S. (2025). Suppressing O-type stacking and cation migration with Mg and Si doping in P2-type Fe–Mn layered oxides for sodium-ion cathodes †. Journal of Materials Chemistry A: Materials for Energy and Sustainability.

MLA Style

Chakraborty, A., et al. “Suppressing O-Type Stacking and Cation Migration with Mg and Si Doping in P2-Type Fe–Mn Layered Oxides for Sodium-Ion Cathodes †.” Journal of Materials Chemistry A: Materials for Energy and Sustainability, Royal Society of Chemistry, 2025.

Chicago Style

Chakraborty, A, RA House, and MS Islam. 2025. “Suppressing O-Type Stacking and Cation Migration with Mg and Si Doping in P2-Type Fe–Mn Layered Oxides for Sodium-Ion Cathodes †.” Journal of Materials Chemistry A: Materials for Energy and Sustainability.
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Files:: Chakraborty_et_al_2025_Suppressing_O-type_stacking.pdf

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Publisher copy:: 10.1039/d5ta00804b

Authors

+ Chakraborty, A More by this author

Institution:: University of Oxford
Division:: SSD
Department:: International Development
Sub department:: Refugee Studies Centre
Role:: Author
ORCID:: 0000-0002-5522-2829

+ House, RA More by this author

Institution:: University of Oxford
Division:: SSD
Department:: International Development
Sub department:: Refugee Studies Centre
Role:: Author
ORCID:: 0000-0002-7415-477X

+ Islam, MS More by this author

Institution:: University of Oxford
Division:: SSD
Department:: International Development
Sub department:: Refugee Studies Centre
Role:: Author
ORCID:: 0000-0002-8077-6241

+ Royal Academy of Engineering More from this funder

Funder identifier:: https://ror.org/0526snb40

Publisher:: Royal Society of Chemistry
Journal:: Journal of Materials Chemistry A: materials for energy and sustainability More from this journal
Publication date:: 2025-04-29
Acceptance date:: 2025-04-28
DOI:: 10.1039/d5ta00804b
EISSN:: 2050-7496
ISSN:: 2050-7488

Language:: English
Source identifiers:: 2927660
Deposit date:: 2025-05-13

Terms of use

Copyright date:: 2025

Licence:: CC Attribution (CC BY) 3.0

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