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Nanoparticles of Li2MnO3 were fabricated by sol-gel method using precursors of lithium acetate and manganese acetate, and citric acid as chelating agent in the stoichiometric ratio. TGA/DTA measurements of the sample in the regions of 30 °C to 176 °C, 176 °C to 422 °C and 422 °C to 462 °C were taken to identify the decomposition temperature and weight loss. The XRD analysis of the sample indicates that the synthesized material is monoclinic crystalline in nature and the calculated lattice parameters are 4.928 Å (a), 8.533 Å (b), and 9.604 Å (c). The surface morphology, particle size and elemental analysis of the samples were observed using SEM and EDAX techniques and the results confirmed the agglomeration of nanoparticles and, as expected, Li2MnO3 composition. Half cells of Li2MnO3 were assembled and tested at C/10 rate and the maximum capacity of 27 mAh/g was obtained. Charging and discharging processes that occurred at 3 V and 4 V were clearly observed from the cyclic voltammetric experiments. Stability of the electrodes was confirmed by the perfect reversibility of the anodic and cathodic peak positions observed in the cyclic voltammogram of the sample. The Li2MnO3 nanoparticles exhibit excellent properties and they are suitable for cathode materials in lithium ion batteries.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
312--319
Opis fizyczny
Bibliogr. 15 poz., rys.
Twórcy
autor
- Department of Physics, Coimbatore Institute of Technology, Coimbatore-641014, India Subramaniyam, Akshaya
- Department of Physics, Coimbatore Institute of Technology, Coimbatore-641014, India Subramaniyam, Akshaya
autor
- Department of Physics, Coimbatore Institute of Technology, Coimbatore-641014, India Subramaniyam, Akshaya
autor
- Department of Electrical and Electronic Engineering, Coimbatore Institute of Technology, Coimbatore-641014, India
autor
- Department of Electrical and Electronic Engineering, Coimbatore Institute of Technology, Coimbatore-641014, India
autor
- Electro chemical Power Source Division, Central electro chemical Research Institute, Karaikudi- 630003, India
Bibliografia
- [1] THE NAM LONG DOA N., KIMOONYO O., TUAN K., A. HOANG, P. CHEN, Frontiers in Energy Research, 2(2014)36.
- [2] YING J., JIANG C., WAN C., J. Power Sources, 129(2004) 264.
- [3] LEE DK., PARKS H., AMINE K., BANGH J., PARAKASH J., J. Power Sources, 162 (2006) 1346.
- [4] PARK S H., KANG S H JOHNSON., C S AMINE, THACKERAY M M., Electrochem.Commun., 9 (2007a) 262.
- [5] RYO NAGAI., FUSAJI KITA., MASAYUKI YAMADA., HIDEAKI KATAYAMA., DR. ENG.,Hitachi Rev., 60 (2011) 28.
- [6] LLIU., K N SUN., NQ ZHANG., T Y YANG., J.Solid State Electrochem., 13 (2009) 1381.
- [7] Y HCHEN., R Z CHEN., Z Y TANG., L WANG., J. Alloys Compd., 476 (2009) 539.
- [8] JIEBIN LI., YOULONG XU., XIFEI LI., ZHANGWEI ZHANG., Applied Surface Science, 285 (2013) 235.
- [9] OZANTOPRAKCI., HATICE A K TOPRAKCI., YING LI., LIWENJI., LEIGANGXUE., HUN LEE., SHU ZHANG., XIANGWU ZHANG., Journal of Power Sources, 241 (2013) 522.
- [10] GAURAV JAIN., JINGSI YANG., MAHALINGAM BALASUBRAMANIAN., JUN JOHN XU., Chem. Mater., 17(2005)3850.
- [11] MCHANDRAMOHAN., S VELUMANI., T VENKATACHALAM., J. Mater. Sci and Eng B, 174 (2010) 205.
- [12] CHRISTOPHER S JOHNSON., NAICHAO LI., CHRISTINA LEFIEF., MICHAEL M. THACKERAY., Electrochemistry Communications 9 (2007) 787.
- [13] DENIS Y W YUAND, KATSUNORI YANAGIDA., Journal of the Electrochemical Society, 158 (2011) 1015.
- [14] B J HWANG., R SANTHANAM., D G LIU., Journal of Power Source, 97(2001) 443.
- [15] KELONG HUANG., BIN PENG., ZHENHUA CHEN., PEIYUNHUANG., Solar Energy Materials & Solar Cells, 62 (2000) 177.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-00c5dcac-a2d8-4a7b-b7ac-cadcd3adcdc5
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