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Study on the electrochemical performance of Li1.2Ni0.17Co0.07Mn0.56O2 synthesized by different methods

CHEN He,WANG Hong,WU Jiping,YANG Bingjian,LIAO Xiaozhen,HE Yushi,MA Zifeng   

  1. Department of Chemical Engineering,Shanghai Jiao Tong University, Shanghai 200240,China
  • Online:2012-11-07 Published:2012-11-05

制备方法对Li1.2Ni0.17Co0.07Mn0.56O2富锂正极材料电化学性能的影响

陈 何,王 红,吴继平,阳炳检,廖小珍,何雨石,马紫峰   

  1. 上海交通大学化学化工学院化学工程系,上海 200240

Abstract: Lithium rich Li1.2Ni0.17Co0.07Mn0.56O2 cathode materials for lithium ion batteries were synthesized by three different methods:a spray-drying method, a co-precipitation method and a solid-state reaction method. Electrochemical tests show that the sample prepared by the spray-drying method presents the best cycling performance with discharge capacity of 153.4 mA?h?g-1 at 1 C rate. No degradation was observed after 50 cycles. While the samples prepared by the co-precipitation method and the solid-state reaction method delivered the capacity of 133.5 mA?h?g-1 and 123.6 mA?h? g-1, respectively, after 50 cycles under 1 C rate charge-discharge. The results of ICP measurements indicate that only the composition of the sample prepared by the spray-drying method can exactly consist with the formula Li1.2Ni0.17Co0.07Mn0.56O2. Furthermore, FSEM observation shows that the sample by spray-drying method has smaller particle size with even particle size distribution, which would benefit its electrochemical performance.

Key words: Lithium-ion battery, Lithium rich cathode material, Li1.2Ni0.17Co0.07Mn0.56O2, spray- drying method, co-precipitation method, solid-state reaction method

摘要: 采用喷雾干燥法、共沉淀法、固相法3种方法制备化学计量式为Li1.2Ni0.17Co0.07Mn0.56O2的锂离子电池富锂正极材料。电化学测试表明,喷雾干燥法制备的材料电化学性能最好,0.1 C充放电首圈脱锂和嵌锂容量分别为283.9 mA/(h?g)和231.7 mA/(h?g)。与共沉淀法和固相法相比较,喷雾干燥法制备的材料1 C倍率充放电时表现出良好的循环稳定性,50次循环后容量没有衰减,仍为153.4 mA/(h?g),共沉淀法和固相法制备的材料50次循环放电容量分别为133.5 mA/(h?g)和123.6 mA/(h?g)。ICP分析结果指出,喷雾干燥法制备的电极材料元素比例最符合初始的Li1.2Ni0.17Co0.07Mn0.56O2设计配比。而且喷雾干燥法制备的材料颗粒更为细小均匀,有利于提高材料的电化学性能。

关键词: 锂离子电池, 富锂正极材料, Li1.2Ni0.17Co0.07Mn0.56O2, 喷雾干燥法, 共沉淀法, 固相法