Electrochemical properties of LiMxCo1-xO2 [M = Mg, Zr] prepared by sol-gel process

LiCoO2, Mg-doped LiCoO2, and Zr doped LiCoO2, are manufactured by a sol-gel method, and are used as cathode active materials for lithium rechargeable batteries. The structural characteristics of the synthesized electrodes are analyzed by X-ray diffraction. The materials have a layered structure with the space gropu R (3) over barm of hexagonal systems. LiCoO2 prepared by sol-gel method shows a capacity decay over 4.3 V but LiCoO2 doped with Mg and Zr give an improvement in charge-discharge cycling performance. This effect may attribute to the fact that Mg2+ and Zr4+ ions have the same size as the Li+ ion and they locate at the inter-slab space. Therefore, they provide a pathway for the intercalation-deintercalation of Li+ during the charge and the discharge processes and prevent distortion of the structure. Also, the formation of a solid solution on the surface of the electrode acts as the buffer to phase transition and the structure becomes very stable. (C) 2004 Elsevier B.V All rights reserved.