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Single-Crystal Nickel-Based Cathodes: Fundamentals and Recent Advances

Shijie Lu, Lin‐bo Tang, Han‐xin Wei, Ying‐de Huang, Cheng Yan, Zhenjiang He, Yunjiao Li, Jing Mao, Kehua Dai, Junchao Zheng

2022Electrochemical Energy Reviews88 citationsDOIOpen Access PDF

Abstract

Abstract Lithium-ion batteries (LIBs) represent the most promising choice for meeting the ever-growing demand of society for various electric applications, such as electric transportation, portable electronics, and grid storage. Nickel-rich layered oxides have largely replaced LiCoO 2 in commercial batteries because of their low cost, high energy density, and good reliability. Traditional nickel-based oxide particles, usually called polycrystal materials, are composed of microsized primary particles. However, polycrystal particles tend to suffer from pulverization and severe side reactions along grain boundaries during cycling. These phenomena accelerate cell degradation. Single-crystal materials, which exhibit robust mechanical strength and a high surface area, have great potential to address the challenges that hinder their polycrystal counterparts. A comprehensive understanding of the growing body of research related to single-crystal materials is imperative to improve the performance of cathodes in LIBs. This review highlights origins, recent developments, challenges, and opportunities for single-crystal layered oxide cathodes. The synthesis science behind single-crystal materials and comparative studies between single-crystal and polycrystal materials are discussed in detail. Industrial techniques and facilities are also reviewed in combination with our group’s experiences in single-crystal research. Future development should focus on facile production with strong control of the particle size and distribution, structural defects, and impurities to fully reap the benefits of single-crystal materials. Graphical abstract

Topics & Concepts

Materials scienceNanotechnologySingle crystalCrystal (programming language)NickelElectronicsCathodeLithium (medication)Engineering physicsMetallurgyElectrical engineeringComputer scienceCrystallographyEngineeringChemistryProgramming languageEndocrinologyMedicineAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesExtraction and Separation Processes