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Charge-Compensation-Driven Failure Mechanism of Ni Redox in Fe-Rich Ni/Fe/Mn-Based O3-Type Layered Oxide Sodium-Ion Cathodes

Yanchang Wang, Yao Xiao, Jiangnan Huang, Chunxiao Zhang, Kentaro Yamamoto, Yoshiharu Uchimoto, Weifeng Wei, Hongshuai Hou, Datong Zhang, Xiaobo Ji

2024The Journal of Physical Chemistry Letters11 citationsDOI

Abstract

For cathode materials of sodium-ion batteries, O3-type Ni/Fe/Mn-based (Na-NFM) layered oxides have garnered extensive attention because of high economic viability, environmental friendliness, and the potential for high energy density. Among them, Fe-rich compositions exhibit higher initial charge capacity and lower bill-of-material costs, while they fade rapidly and exhibit low initial coulombic efficiency, hindering their commercialization prospects. In this work, we investigate the failure of Fe-rich Na-NFM materials through X-ray absorption spectroscopy methods. The results reveal a combined failure mechanism that encompasses not only the conventional theory of Fe migration but also an abnormal Ni-redox deterioration, which has not yet been reported. More factors related to the failure of Fe-rich Na-NFM layered oxides are discussed in detail. These findings are expected to inspire targeted research efforts toward Fe-rich Na-NFM materials, thereby accelerating the practical application of sodium-ion batteries.

Topics & Concepts

RedoxOxideIonCathodeMaterials scienceSodiumMechanism (biology)Inorganic chemistryChemistryMetallurgyPhysicsPhysical chemistryQuantum mechanicsOrganic chemistryAdvancements in Battery MaterialsAdvanced Battery Technologies ResearchExtraction and Separation Processes
Charge-Compensation-Driven Failure Mechanism of Ni Redox in Fe-Rich Ni/Fe/Mn-Based O3-Type Layered Oxide Sodium-Ion Cathodes | Litcius