期刊
ENERGY & FUELS
卷 35, 期 13, 页码 10428-10450出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.energyfuels.1c01102
关键词
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资金
- Ministry of Higher Education, Government of Malaysia [FRGS/1/2019/STG07/UMP/01/1, RDU1901165]
- Universiti Malaysia Pahang [UMP.05.02/26.10/03/03/PGRS2003123]
- Ministry of Science and Technology (MOST), Taiwan [MOST 109-3116-F-131-001-CC1]
- Sunway University [GRTIN-IRG-59-2021]
The review focuses on the development of phosphate polyanion cathode materials for high-voltage lithium-ion batteries, highlighting their high electrochemical potential, long cycle stability, low cost, and achieved specific capacity. Various techniques to improve the electrical and ionic conductivities of these cathodes are discussed, along with strategies for future high-voltage phosphate polyanion cathode materials.
Followed by decades of successful efforts in developing cathode materials for high specific capacity lithium-ion batteries, currently the attention is on developing a high-voltage battery (>5 V vs Li/Li+) with an aim to increase the energy density for their many fold advantages over conventional <4 V batteries. Among the various cathode materials, phosphate polyanion materials (LiMPO4, where M is a single metal or a combination of metals) showed promising candidacy given their high electrochemical potential (4.8-5 V vs Li/Li+), long cycle stability, low cost, and achieved specific capacity (similar to 165 mAh.g(-1)) near to its theoretical limit (170 mAh.g(-1)). In this review, factors affecting the electrochemical potential of the cathode materials are reviewed and discussed. Techniques to improve the electrical and ionic conductivities of phosphate polyanion cathodes, namely, surface coating, particle size reduction, doping, and morphology engineering, are also discussed. A processing-property correlation in phosphate polyanion materials is also undertaken to understand relative merits and drawbacks of diverse processing techniques to deliver a material with targeted functionality. Strategies required for high-voltage phosphate polyanion cathode materials are envisioned, which are expected to deliver lithium-ion battery cathodes with higher working potential and gravimetric specific capacity.
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