Electrochemical Properties of LiCo 0.4 Ni 0.6 O 2 and its Performances in Rechargeable Lithium Batteries

Sri Lankan Journal of Physics Pub Date : 2007-11-11 DOI:10.4038/SLJP.V8I0.213

N. Balasooriya, P. Bandaranayake

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引用次数: 4

Abstract

Intercalation cathode materials belonging to the 4-volt class electrodes, lithiated cobalt oxide LiCoO2 and lithiated nickel cobalt oxide LiCo0.4Ni0.6O2, were synthesized by sol-gel technique. The structural characteristics of the compounds were studied using XRD, FTIR and DSC. The compounds were used as cathode materials for assembling rechargeable lithium-batteries and their electrochemical performances were studied. The potentiostat and galvanostat techniques were used to determine the electrochemical characteristics. The irreversible capacity loss of LiCoO2 during the first charge-discharge is about 20% and for LiCo0.4Ni0.6O2 is about 90% for two different current rates of 5 and 10 A kg -1 . The overall electrochemical capacity of LiCo0.4Ni0.6O2 has been drastically reduced due to the s-block or p-block metal substitution. Also the un-reacted materials remained as impurities gave a very poor cycleability. However more stable charge-discharge performances have been observed for LiCoO2 at different current rates. Differences and similarities between these two cathode materials in batteries are also discussed. The Li-ion batteries were assembled using the sol-gel synthesized cathode materials, natural untreated vein graphite of Sri Lanka as the anode material and 1 M LiPF6 in EC/DMC as liquid electrolyte, and their performances were tested.

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LiCo 0.4 Ni 0.6 o2的电化学性能及其在可充电锂电池中的性能

采用溶胶-凝胶法制备了4伏级电极插层正极材料锂化氧化钴LiCoO2和锂化镍氧化钴LiCo0.4Ni0.6O2。采用XRD、FTIR和DSC对化合物的结构特征进行了研究。将这些化合物用作可充电锂电池的正极材料，并对其电化学性能进行了研究。采用恒电位法和恒流法测定其电化学特性。在5和10 A kg -1两种不同的电流下，LiCo0.4Ni0.6O2在首次充放电过程中的不可逆容量损失约为20%，LiCo0.4Ni0.6O2在首次充放电过程中的不可逆容量损失约为90%。由于s-嵌段或p-嵌段金属取代，LiCo0.4Ni0.6O2的整体电化学容量急剧降低。此外，未反应的材料仍然作为杂质，给了一个非常差的循环性。然而，在不同的电流速率下，LiCoO2的充放电性能更为稳定。讨论了这两种正极材料在电池中的异同。采用溶胶-凝胶合成的正极材料、斯里兰卡天然未经处理的脉状石墨为正极材料、EC/DMC中的1 M LiPF6为液态电解质组装锂离子电池，并对其性能进行了测试。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Sri Lankan Journal of Physics

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