Titania and Cu-Titania Composite Layer on Graphite Substrate as Negative Electrode for Li-Ion Battery
 G. Ceder, Y.M. Chiang, D.R. Sadoway, M.K. Aydiol, Y.I. Jiang, and B.
Huang, "Identification of cathode materials for litium batteries guided by
first-principles calculation," Nature, vol. 392, pp.694-696 , Apr. 1998.
 P.J. Bouwman, Litiu Intercalation in Preferentially Oriented Submicron
LiCoO2 Films. Netherland: University of Twente, 2002.
 T. Eriksson, LiMn2O4 as a Li-ion Battery Cathode from Bulk to
Electrolyte Interface, Sweden: Uppsala University, 2001 (Dissertation).
 M. Herstedt, Toward Safer Lithium-ion Batteries, Sweden: Uppsala
 V.E. House, and F. Ross, "Anode-r way- Why the anode yields better
results," Altair Nanotechnologies, Altairnano, Inc.
 G.N. Brown, J.W. Birks, and Koval, "Development and characterization
of a titanium-dioxide based semiconductor photoelectrochemical
detector," Anal. Chem,. Vol.64, pp. 427-434, 1992.
 M.V. Koudriachova, N.M. Harrison, and S.W. de Leeuw, "Effect of
diffusion on lithium intercalation in titanium dioxide," Phys. Rev. Lett.,
vol. 85, no. 7, pp.1275-1278, Feb. 2001.
 X.D. Sun, " Al13-pillared TiO2 as a cathode for a litium battery,"
Nanotechnology, vol. 15, pp. 1535-1538, 2004.
 D. Son, E. kim, T.G. Kim, M.G. Kim, J. Cho, and B. Park,"
Nanoparticle iron-phosphate anode material for Li-ion battery," App.
Phys. Lett., vol.85, no. 24, pp.5875-5877, Dec. 2004.
 Y. Wang, J.Y. Lee, and B.H. Chen, " Microemulsion synthesis of tin
oxide-graphite nanocomposites as negative electrode materials for
lithium-ion batteries," Electrochem. Solid-State Lett., vol. 6, no. 1, pp.
 Y. Wang, J.Y. Lee, and T.C. Deivaraj, "Tin nanoparticle loaded graphite
anode for Li-ion battery applications," J. Electrochem. Soc., vol.151, no.
11, pp. A1804-A1809, 2004.
 Y.J. Kwon, M.G. Kim, Y.J. Kim, Y. Lee, and J. Cho, "Effect of capping
agents in tin nanoparticles on electrochemical cycling," Electrochem.
Solid-State Lett., vol.9, no.1, pp. A34-A38, 2006.
 A. Kampman, P. Cowache, D. Lincott, and J. Vedel, "Junction
formation studies of one step electrodeposited CuInSe2 on CdS," J.
Electrochem. Soc., vol. 146, no.1, pp. 150-155, 1999.
 K. Fodor, J.H. Bitter, and K.P. de Jong," Investigation of vapor phase
silica deposition on MCM-41 using tetraalkoxysilanes," Microporous
and Mesoporous Mat., vol.56, pp. 101-109, 2002.
 D. Lincot, M. Froment, and H. Cachet, Advanced in Electrochemical
Science and Engineering, vol.6, New York: Wiley-VCH.
 F. Rahmawati, S. Wahyuningsih, and N. Handayani," Surface
modification of semiconductor thin film of TiO2 on graphite substrate by
Cu electrodeposition," Indo. J. Chemistry, vol 8, pp. 331-336, 2008.
 X.Y. Zhang, L.D. Zhang, W. Chen, G.W. Meng, M.J. Zeng, and L.X.
Zhao," Electrochemical fabrication of highly ordered semiconductor and
metallic nanowire arrays," Chem. Mater., vol 13, pp. 3511-3515, 2004.
 F. Rahmawati, S. Wahyuningsih, and P.A. Windu," Synthesis of thin
film of TiO2 on graphite substrate by chemical bath deposition," Indo. J.
Chem., vol. 6, pp. 121-126, 2006.
 B. Huang, Y.I. Jang, Y.M. Chiang, and D.R. Sadoway," Electrochemical
evaluation of LiCoO2 synthesized by decomposition and intercalation of
hydroxides for lithium-ion battery applications," J. Appl. Electrochem.,
vol. 28, pp. 1365-1369, 1998.
 J.Y. Luo, W.J. Cui, P. He, and Y.Y. Xia," Raising the cycling abiity of
aqueous lithium ion batteries by eliminating oxygen in the electrolyte,"
Nature Chem., vol.2, pp. 760-765, Sept. 2010.