Influence of Precursor on the Electrochemical Properties of Li(Ni0.5Co0.2Mn0.3)O2 Cathode for the Lithium Secondary Battery |
Kang, Donghyun
(Graduate School of Green Energy Technology, Chungnam National University)
Arailym, Nurpeissova (Graduate School of Green Energy Technology, Chungnam National University) Chae, Jeong Eun (Graduate School of Green Energy Technology, Chungnam National University) Kim, Sung-Soo (Graduate School of Green Energy Technology, Chungnam National University) |
1 | D.-C. Li, T. Muta, L.-Q. Zhang, M. Yoshio, and H. Noguchi, "Effect of synthesis condition on the structural and electrochemical properties of prepared by carbonate co-precipitation method", J. Power Sources, 132, 150 (2004). DOI ScienceOn |
2 | A. V. Bommel and J. R. Dahn, "Analysis of the Growth Mechanism of Coprecipitated Spherical and Dense Nickel, Manganese, and Cobalt-Containing Hydroxides in the Presence of Aqueous Ammonia", Chem. Mater., 21, 1500 (2009). DOI |
3 | K. Wu, F. Wang, L. Gao, M.-R. Li, L. Xiao, L. Zhao, S. Hu, X. Wang, Z. Xu, and Q. Wu, "Effect of precursor and synthesis temperature on the structural and electrochemical properties of ", Journal of Power Sources, Volumes 119121, Electrochimica Acta., 75, 393 (2012). DOI ScienceOn |
4 | D. C. Li, Y. K. Sasaki, M. Kageyama. K. Kobayashi, and Y. Sato, "Structure, morphology and electrochemical properties of prepared by solid state reaction", J. Power Sources, 148 85 (2005). DOI ScienceOn |
5 | J.-Z. Kong, H.-F. Zai, C. Ren, G.-A. Tai, X.-Y. Yang, F. Zhou, H. Li, J.-X. Li, and Z. Tang, "High-capacity lithium-ion battery cathode synthesized using a green chelating agent", J. Solid State Electrochem., published online:22 September (2013). |
6 | T. Ohzuku, A. Ueda, and M. Nagayama, "Electrochemistry and Structural Chemistry of (R3m) for 4 Volt Secondary Lithium Cells", J. Electrochem. Soc., 140, 7 (1993). DOI |
7 | F. Cosandey, "Analysis of Li-Ion Battery Materials by Electron Energy Loss Spectroscopy", Microscopy: Science, Technology, Applications and Education", A. Mndez-Vilas, J. Daz (Eds.), Formatex, 1662 (2010). |
8 | J. K. Ngala, N. A. Chernova, M. Ma, M. Mamak, P. Y. Zavalija, and M. S. Whittingham, "The synthesis, characterization and electrochemical behavior of the layered compound", J. Mater. Chem., 14, 214 (2004). DOI ScienceOn |
9 | G.-W. Yoo, H.-J. Jeon, and J.-T. Son, "Effects of Calcinations Temperature on the Electrochemical Properties of Lithium-ion Cathode Materials", This jouranl., 16, 59 (2013). |
10 | T. Ohzuku and Y. Makimura, "Layered Lithium Insertion Material of for Lithium-Ion Batteries", Chem., Lett., 30, 642 (2001). DOI |
11 | T. Ohzuku and Y. Makimura, "Layered Lithium Insertion Material of : A Possible Alternative to for Advanced Lithium-Ion Batteries", Chem., Lett., 30, 744 (2001). DOI |
12 | S.-W. Cho, J.-H. Ju, S.-H. Ryu, and K.-S. Ryu, "Structure and Electrochemical Characterization of as the Cathode Material Synthesized by Simple-combustion Method", This jouranl., 13, 264 (2010). |
13 | S. Patoux and M. M. Doeff, "Direct synthesis of from nitrate precursors", Electrochem. Comm., 6, 767 (2004). DOI ScienceOn |
14 | H.-K. Park, "The Research and Development Trend of Cathode Materials in Lithium Ion Battery", This jouranl., 11, 197 (2008). |
15 | H.-J. Jeon, C.-S. Kang, G. W. Yoo, C. Kim, and J.-T. Son, "The influence of lithium content in cathode materials prepared by coprecipitation method", J. Electroceram., 30, 172 (2013). DOI ScienceOn |
16 | Y. Koyama, I. Tanaka, H. Adachi, Y. Makimura, and T. Ohzuku, "Crystal and electronic structures of superstructural ", J. Powder Sources., 119, 644 (2003). |
17 | J. H. Jang and S. M. Oh, "Complex Capacitance Analysis of Impedance Data and its Applications", This jouranl., 13, 223 (2010). |