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锂离子电池富镍正极基础科学问题:关键元素掺杂及其作用机制 被引量:7

Basic Scientific Problems of Nickel Rich Cathode Materials for Li-ion Battery:Key Element Substitution and Its Mechanism
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摘要 富镍层状氧化物因其相对较高的比容量成为高能量密度锂离子电池的首选正极,进一步提高Ni含量,材料特性趋向于LiNiO_(2),电化学和结构稳定性恶化。晶格元素掺杂是提升LiNiO_(2)稳定性的有效策略。厘清LiNiO_(2)正极材料结构并明晰掺杂元素对其影响及规律,对开发Ni含量大于90%的富镍正极材料具有重要意义。本文首先介绍了LiNiO_(2)材料结构及面临的稳定性问题。然后综述了Co、Mn、Al、Mg、Ti、Zr、W等典型掺杂元素对LiNiO_(2)的影响及规律,并讨论了阴离子和多元素掺杂以及有潜力的掺杂元素。本文旨在对LiNiO_(2)掺杂提供一个新的视角,以期使用更有效的掺杂方案开发可用于动力电池的高容量稳定的富镍正极材料。 Nickel-rich layered oxides have become the preferred cathodes for high-energy-density Li-ion batteries due to their relatively high specific capacity.Further increasing the Ni content,the material properties tend to be LiNiO_(2),and the electrochemical and structural stability deteriorate.Lattice element doping is an effective strategy to improve the stability of LiNiO_(2).Clarifying the structure of LiNiO_(2)cathode material and clarifying the influence and regularity of doping elements on it is of great significance for the development of nickel-rich cathode materials with Ni content greater than 90%.In this paper,the structure of LiNiO_(2)material and the stability problems it faces were firstly introduced.Then,the influences and laws of typical doping elements such as Co,Mn,Al,Mg,Ti,Zr,and W on LiNiO_(2)were reviewed,and anionic and multi-element doping and potential doping elements were discussed.This paper aims to provide a new perspective on LiNiO_(2)doping with a view to developing high-capacity stable Ni-rich cathode materials for power batteries by more efficient doping schemes.
作者 邓中莉 吕卓赟 范未峰 张燕辉 左美华 向伟 Deng Zhongli;Lv Zhuoyun;Fan Weifeng;Zhang Yanhui;Zuo Meihua;Xiang Wei(School of Materials,Chemistry and Chemical Engineering,Chengdu University of Technology,Chengdu 610059,China;Yibin Guangyuan Lithium-Electric Materials Co.,Ltd,Yibin 644000,China)
出处 《稀有金属材料与工程》 SCIE EI CAS CSCD 北大核心 2023年第3期1143-1154,共12页 Rare Metal Materials and Engineering
基金 国家自然科学基金青年基金(21805018)。
关键词 富镍正极材料 元素掺杂 阳离子混排 掺杂机制 晶格改性 nickel-rich cathode materials element substitution cationic mixing substituting mechanism lattice modification
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