One-Step β-Li2SnO3 Coating on High-nickel Layered Oxides via Thermal Phase Segregation for Li-ion Batteries

The global energy storage markets have gravitated to high-energy-density and low cost of lithium-ion batteries (LIBs) as the predominant system for energy storage such as electric vehicles (EVs). High-Ni layered oxides are considered promising next-generation cathode materials for LIBs owing to thei...

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Published in:Journal of Electrochemical Science and Technology 2023-08, Vol.14 (3), p.293-300
Main Authors: Kim, Seongmin, Kim, Hanseul, Doo, Sung Wook, Jeon, Hee-Jae, Kim, In Hye, Kim, Hyun-seung, Kim, Youngjin
Format: Article
Language:English
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Summary:The global energy storage markets have gravitated to high-energy-density and low cost of lithium-ion batteries (LIBs) as the predominant system for energy storage such as electric vehicles (EVs). High-Ni layered oxides are considered promising next-generation cathode materials for LIBs owing to their significant advantages in terms of high energy density. However, the practical application of high-Ni cathodes remains challenging, because of their structural and surface instability. Although extensive studies have been conducted to mitigate these inherent instabilities, a two-step process involving the synthesis of the cathode and a dry/wet coating is essential. This study evaluates a one-step β-Li2SnO3 layer coating on the surface of LiNi0.8Co0.2O2 (NC82) via the thermal segregation of Sn owing to the solubility limit with respect to the synthesis temperature. The doping, segregation, and phase transition of Sn were systematically revealed by structural analyses. Moreover, surface-engineered 5 mol% Sn-coated LiNi0.8Co0.2O2 (NC82_Sn5%) exhibited superior capacity retention compared to bare NC82 owing to the stable surface coating layer. Thus, the developed one-step coating method is suitable for improving the properties of high-Ni layered oxide cathode materials for application in LIBs.
ISSN:2093-8551
2288-9221
DOI:10.33961/jecst.2023.00143