Environmental Engineering Reference
In-Depth Information
48. A.J. Marchi, and C.R. Apesteguia, Applied Clay Science , Vol. 13, p. 35, 1998.
49. F. Trii ro, and A. Vaccari, Comprehensive Supramolecular Chemistry , J.L.
Atwood, J.E.D. Davies, D.D. Macniol, and F. Vogtle, eds., Oxford, Pergamon
Press,1996.
50. S. Sharma, K. Kushwaha, V.K. Srivastava, S.D. Bhatt, and R.V. Jasra, Industrial
and Engineering Chemistry Research , Vol. 46, p. 4856, 2007.
51. G. Renaudin, M. Francois, and O. Evrard, Cement and Concrete Research ,
Vol. 29, p. 63, 1999.
52. U. Constantino, F. Marmottini, M. Nocchetti, and R. Vivani, Europian
Journal of Inorganic Chemistry , Vol. 10, p. 1439, 1998.
53. M. Ogawa, and H. Kaiho, Langmuir , Vol. 18, p. 4240, 2002.
54. J. Livage, M. Henry, and C. Sánchez, Progress in Solid State Chemistry , Vol. 18,
p. 259, 1988.
55. F. Prinetto, G. Ghiotti, P. Grai n, and D. Tichit, Microporous and Mesopoous
Materials , Vol. 39, p. 229, 2000.
56. M.A. Aramendia, V. Borau, C. Jiménez, J.M. Marinas, J.R. Ruíz, and F.J.
Urbano, Journal of Solid State Chemistry , Vol. 168, p. 156, 2002.
57. M. Jitianu, M. Balaoiu, M. Zaharescu, A. Jitianu, and A. Ivanov, Journal of
Sol-Gel Science and Technology , Vol. 19, p. 453, 2000.
58. T. Lopez, P. Bosch, E. Ramos, R. Gomez, O. Novarro, D. Acosta, and F.
Figueras, Langmuir , Vol. 12, p. 189, 1996.
59. J. He, M. Wei, B. Li, Y. Kang, G.D. Evans, and X. Duan, Structural Aspects of
Layered Double Hydroxides , Berlin Heidelberg, Springer-Verlag, Vol. 119, pp.
89-119, 2006.
60. N. Morel-Desrosiers, J. Pisson, Y. Israëli, C. Taviot-Ghèho, J.P. Besse, and J.P.
Morel, Journal of Material Chemistry , Vol. 13, p. 2582, 2003.
61. V. Rives, ed., Layered Double Hydroxides: Present and Future , New York,
Nova Sci. Publisher, 2001.
62. O. Saber, Journal of Physics: Conference Series , Vol. 61, p. 825, 2007.
63. E. Suzuki, S. Idemura, and Y. Ono, Clays Clay Minerals , Vol. 37, p. 173, 1989.
64. M. Drezdzon, Inorganic Chemistry , Vol. 27, p. 4628, 1988.
65. F.R. Costa, A. Leuteritz, U. Wagenknecht, D. Jehnichen, L. Hauoler, and G.
Heinrich, Applied. Clay Science , Vol. 38, p. 153, 2008.
66. S. Carlino, and M.J. Hudson, Solid State Ionics , Vol. 110, p. 153, 1998.
67. L. Ukrainczyk, M. Chibwe, T.J. Pinnavaia, and S.J. Boyd , Journal of Physical
Chemistry , Vol. 98, p. 2668, 1994.
68. F. Kooli, C. Depege, A. Ennaquadi, A. De Roy, and J.P. Besse, Clays and Clay
Minerals , Vol. 45, p. 92, 1997.
69. H. Tagaya, S. Sato, H. Morioko, J. Kadokawa, M. Karasu, and K. Chiba,
Chemistry of Materials , Vol. 5, p. 1431, 1993.
70. M. Chibwe, and T.J. Pinnavaia, Chemical Communications , Vol. 3, p. 278,
1993.
71. M.E. Perezbernal, R. Ruanocasero, and T.J. Pinnavaia, Catalysis Letters ,
Vol. 11, p. 55, 1991.
Search WWH ::




Custom Search