Y. C. Kan, Y. Hu, Y. Ren, J. Bareno, I. Bloom, Y. K. Sun, K. Amine and Z. H. Chen (2014) Journal Of Power Sources 271 97-103. |
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Date: 2015-03-29
Author: SKLFS  , Source: SKLFS  ,
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Y. C. Kan, Y. Hu, Y. Ren, J. Bareno, I. Bloom, Y. K. Sun, K. Amine and Z. H. Chen (2014) Differentiating allotropic LiCoO2/Li2Co2O4: A structural and electrochemical study. Journal/Journal Of Power Sources 271 97-103. [In English] Web link: http://dx.doi.org/10.1016/j.jpowsour.2014.07.178 Keywords: ,Allotropic structure, Lithium cobalt oxide, Structure property, relationship, Cation mixing, Lithium battery, LICOO2, 400-DEGREES-C, NANOPARTICLES, PERFORMANCE, FABRICATION, OXIDATION, CATALYSTS, TITANIUM, BATTERY, ALPHA Abstract: In situ high-energy X-ray diffraction was carried out to investigate the structural transformation of lithium cobalt oxides during the solid-state synthesis. Two allotropic phases were observed during the synthesis process, Li2Co2O4 with a spinel structure was formed within the temperature window between 450 degrees C and 650 degrees C, beyond which Li2Co2O4 was converted to its hexagonal counterpart, layered LiCoO2, through a cation exchange between Li and Co. In electrochemical tests, the Li2Co2O4 was estimated to have a very low reversible capacity, similar to 20 mAh g(-1), and a high initial irreversible capacity loss of about 80 mAh g(-1). An interfacial phase between layered LiCoO2 domain and spinel Li2Co2O4 domain was also identified by ex situ high-resolution X-ray diffraction. (C) 2014 Elsevier B.V. All rights reserved.
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State Key Laboratory of Fire Science, University of Science and Technology of China
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P. O.: 230026 |
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Tel:(+86)551 63601651 |
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E-mail:sklfs@ustc.edu.cn |
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