Research progresses in O3-type Ni/Fe/Mn based layered cathode materials for sodium ion batteries

Shengyu Zhao; Qinhao Shi; Wuliang Feng; Yang Liu; Xinxin Yang; Xingli Zou; Xionggang Lu; Yufeng Zhao

doi:10.1007/s43979-023-00053-9

Carbon Neutrality (Jun 2023)

Research progresses in O3-type Ni/Fe/Mn based layered cathode materials for sodium ion batteries

Shengyu Zhao,
Qinhao Shi,
Wuliang Feng,
Yang Liu,
Xinxin Yang,
Xingli Zou,
Xionggang Lu,
Yufeng Zhao

Affiliations

Shengyu Zhao: Institute for Sustainable Energy & College of Sciences, Shanghai University
Qinhao Shi: Institute for Sustainable Energy & College of Sciences, Shanghai University
Wuliang Feng: Institute for Sustainable Energy & College of Sciences, Shanghai University
Yang Liu: Institute for Sustainable Energy & College of Sciences, Shanghai University
Xinxin Yang: State Key Laboratory of Advanced Special Steel and Shanghai Key Laboratory of Advanced Ferrometallurgy and School of Materials Science and Engineering, Shanghai University
Xingli Zou: State Key Laboratory of Advanced Special Steel and Shanghai Key Laboratory of Advanced Ferrometallurgy and School of Materials Science and Engineering, Shanghai University
Xionggang Lu: State Key Laboratory of Advanced Special Steel and Shanghai Key Laboratory of Advanced Ferrometallurgy and School of Materials Science and Engineering, Shanghai University
Yufeng Zhao: Institute for Sustainable Energy & College of Sciences, Shanghai University

DOI: https://doi.org/10.1007/s43979-023-00053-9
Journal volume & issue: Vol. 2, no. 1
pp. 1 – 26

Abstract

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Abstract Sodium ion batteries (SIBs) have attracted great interest as candidates in stationary energy storage systems relying on low cost, high abundance and outstanding electrochemical properties. The foremost challenge in advanced NIBs lies in developing high-performance and low-cost electrode materials. To accelerate the commercialization of sodium ion batteries, various types of materials are being developed to meet the increasing energy demand. O3-type layered oxide cathode materials show great potential for commercial applications due to their high reversible capacity, moderate operating voltage and easy synthesis, while allowing direct matching of the negative electrode to assemble a full battery. Here, representative progress for Ni/Fe/Mn based O3-type cathode materials have been summarized, and existing problems, challenges and solutions are presented. In addition, the effects of irreversible phase transitions, air stability, structural distortion and ion migration on electrochemical performance are systematically discussed. We hope to provide new design ideas or solutions to advance the commercialization of sodium ion batteries.

Published in Carbon Neutrality

ISSN: 2788-8614 (Print); 2731-3948 (Online)
Publisher: Springer
Country of publisher: Switzerland
LCC subjects: Social Sciences: Industries. Land use. Labor: Special industries and trades: Energy industries. Energy policy. Fuel trade; Technology: Mechanical engineering and machinery: Renewable energy sources
Website: https://www.springer.com/journal/43979

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