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http://dx.doi.org/10.4313/TEEM.2003.4.2.035

Electrochemical Properties and Estimation on Active Material LiMnO2 Synthesis for Secondary  

Wee, Sung-Dong (Department of Electron Media, SungWon College)
Kim, Jong-Uk (Division of Electronics and Information Engineering, Chonbuk National University)
Gu, Hal-Bon (Department of electrical Engineering, Chonnam National University)
Publication Information
Transactions on Electrical and Electronic Materials / v.4, no.2, 2003 , pp. 35-39 More about this Journal
Abstract
This paper is contents on the orthorhombic crystalline calcined by the solid phase method with LiMnO$_2$ thin film structured as the result which an average pore diameter of power was 132.3${\AA}$ in porosity analysis. Voltage ranges are able to get the properties of charge and discharge for experimental results of LiMnO$_2$ thin film were 2.2V 4.3V. The current density and scan speed were 0. 1㎃/$\textrm{cm}^2$ and 0.2㎷/sec respectively. Properties of the charge and discharge are obtained by optimum experiment condition parameters. Li dense ratio of the LiMnO$_2$ thin film that discharged capacities were 87㎃h/g have been 96.9[ppm] at 670.784[nm] wavelength. The dense ratio of Mn analyzed to 837[ppm] at 257.610[nm] wavelength. It can be estimated the quality of the LiMnO$_2$ thin film as that the wrong LiMnO$_2$ thin film pulled up from cell of electrolyte and became dry it at 800$^{\circ}C$. The results of SEM and XRD were the same as that of original researchers.
Keywords
Lithium Batteries; 9$25^{\circ}C$ Calcination;
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1 S. T. Myung, S. K.omaba, and N. Kumagai, 'Orthorhombic LiMn$O_2$ as high capacity catgode for lithium Ion battery by hydrother mal route at $170^\circC$', Chemirty Letters, p. 80, 2001
2 S. T. Myung, S. Komaba, and N. Kumagai, 'Synthesis of orthorhombic LiMn$O_2$ as ahigh capacity cathode for lithium ion battery by emulsion drying method', Chemistry Letters, p. 574, 2001
3 S. T. Myung, S. Komaba, N. Kumagai, T. Kanouch,and N. Kumagai, 'Hydrothemal synthesis of orthohombic LiMn$O_2$ and its electrochemical properties' 13th International Conference on Solid Ionic, Caims, Australia, Jul. 2001, p. 85
4 S. Tobishima, Y. Ogino, and Yuwatanabe, 'Influence of additives in electrolyte solutions on safety and cycle life of lithium cells', Department of Chemistry, Faculty of Engineering, Gunma University. August 6, 2002
5 Y. Sasaki, H. Miura, K. Tominaga, and N. Nanbu, 'Electric properties and application to a lithium battery of ternary solvent electrolyes with ethylene', Carbonate Dimethy1 Cabonate -3 Methylaydnone and 3_Ethy1sydnone, Depart ment of Applied Chemistry, Faculty of Engineering, Tokyo Institute of Polytechnics, February 21, 2002
6 I. V. Kim, Y. J. Jo, and H. B. Gu, 'Electrochemical properties of LiMn$O_2$ organic composite cathodes with hight capacity for lithium ion polymer battery' Joumal of KIEEME, Vol. 15, No. 2, p. 162, 2002