[1]
K. Iino, M. Kitano, M. Takeuchi, etc. Curr. Appl. Phys. (2005) 6, 982
Google Scholar
[2]
G. Corro, C. Odilon Vazquez, J.L.G. Fierro. Catal. Commun. Vol. 6 (2005), p.287
Google Scholar
[3]
C. X. Dong , A. P. Xian ,E. H. Han .J Mater Sci.Vol. 41 (2006), p.6168
Google Scholar
[4]
X.. L. Yuan, J.L. Zhang, Masakazu . Res Chem Intermed .Vol. 36 (2010), p.83
Google Scholar
[5]
V.M. EJEC, I. KAˇS´IK, D. BERKOV, J.of Sol-Gel Science and Technology.Vol 13 (1998) ,p.617
Google Scholar
[6]
P. L. Ana , Batista, H. W. P.Carvalho. Environ Chem Lett. Vol. 8 (2010),p.63
Google Scholar
[7]
A.M.T. Silva, B.F. M. Helder, T. Gomes. J Nanopart Res.Vol.12 (2010),p.121
Google Scholar
[8]
H. Zhao, S. Bennici, J. Shen. J Therm Anal Calorim.Vol.99 (2010), p.843
Google Scholar
[9]
O. V.Cuchillo, A.C.Lo´pez, L. M. B.Carrillo.Res. Chem. Intermed Vol. 36 (2010), p.103
Google Scholar
[10]
Fang J, Bi X, Si D, et al., Appl. Surf. Sci. Vol. 253 (2007), p.89521
Google Scholar
[11]
K. Nakagawa, Y. Murata, M. Kishida, et al. Mater. Chem. Phys. Vol. 104 (2007),p.30
Google Scholar
[12]
G. Corro, C. O. Vazquez, J.L.G. Fierro. Catal. Commun.Vol.6 (2005) ,p.287
Google Scholar
[13]
F. P. Daly, H. Ando, J. L. Schmitt, et al. J. Catal. Vol. 108 (1987) , p.401
Google Scholar
[14]
G. Colón, M. A. Avilés, J. A. Navío et al.,J. Thermal Analysis and Calorimetry. Vol. 67 (2002),p.229
Google Scholar
[15]
H. FUJII, K. Inata, M. Ohtaki Htaki. J. Mater. Sci.Vol.36 (2001),p.527
Google Scholar
[16]
I. K.Biernacka, A. R. Silva, A.P. Carvalho. Catal. Lett. Vol. 134 (2010) ,p.63
Google Scholar
[17]
D.F. Zhao, J.Zhou, N.Liu. Mater. Characterization. Vol.58,3 (2007), p.249
Google Scholar
[18]
D.F. Zhao, J.Zhou, N.Liu.Mate. Sci.& Eng. A,Vol.431(1-2), (2006) ,p.256
Google Scholar
