摘要
随着社会的发展,人们在日常生活中对于电能的使用更加广泛且具体。电池作为储存电能的主要装置,在实际的运用过程中,有着较高的使用性能要求。在我国研究人员不断的深入研究下,镍钴锰三元正极材料在近几年不断发展,并且有较高的实际应用价值。镍钴锰三元正极材料结合了之间的优势,从而形成,从而在啊共沉淀法的制备下产生,更产生合成材料,结合这Ni-Co-Mn三类化合元素的主要优势,提升了镍钴锰三元材料在实际应用过程中的使用效能。在三元正极材料的不断制备中,需要加强高比容量、高倍率、长循环寿命等因素的关注,加强前驱体物理质量的研究和选择。本文以共沉淀法为主要的制备方式,讨论镍钴锰三元正极材料的主要制备过程以及发展情况。
With the development of society,people's use of electricity in their daily lives has become more widespread and specific.As the main device for storing electrical energy,batteries have high performance requirements in practical applications.Under the continuous in-depth research of researchers in China,nickel cobalt manganese ternary cathode materials have been continuously developed in recent years and have high practical application value.The nickel cobalt manganese ternary positive electrode material combines the advantages between them to form a composite material,which is produced under the co precipitation method.Combined with the main advantages of the Ni Co Mn three types of composite elements,the efficiency of the nickel cobalt manganese ternary material in practical applications is improved.In the continuous preparation of ternary cathode materials,it is necessary to pay more attention to factors such as high specific capacity,high magnification,and long cycle life,and to strengthen the research and selection of precursor physical quality.This article discusses the main preparation process and development of nickel cobalt manganese ternary cathode materials using co precipitation method as the main preparation method.
作者
朱静薰
ZHU Jing-xun(Guangxi Zhongwei New Energy Technology Co.,Ltd,Qinzhou 535000,China)
出处
《世界有色金属》
2023年第9期157-159,共3页
World Nonferrous Metals
关键词
共沉淀法
钴镍锰三元正极材料
制备研究
co precipitation method
Cobalt nickel manganese ternary cathode material
Preparation research
