Thèse - Université de Bourgogne
Thèse - Université de Bourgogne
Thèse - Université de Bourgogne
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
Chapitre 2 : Les zéolithes <strong>de</strong> topologie MFI<br />
1. R. Millini, G. Perego, et G. Bellussi, "Synthesis and characterization of<br />
boron!containing molecular sieves”, Top. Catal. 9, 13-34 (1999).<br />
2. S. Bordiga, A. Damin, F. Bonino, G. Ricchiardi, C. Lamberti, et A. Zecchina, "The<br />
structure of the peroxo species in the TS-1 catalyst as investigated by resonant Raman<br />
spectroscopy”, Angew. Chem. Int. Ed. Engl 41, 4734-4737 (2002).<br />
3. G. Ricchiardi, A. Damin, S. Bordiga, C. Lamberti, G. Spanò, F. Rivetti, et A. Zecchina,<br />
"Vibrational structure of titanium silicate catalysts. A spectroscopic and theoretical<br />
study”, J. Am. Chem. Soc. 123, 11409-11419 (2001).<br />
4. C. Lamberti, G. Turnes Palomino, S. Bordiga, A. Zecchina, G. Spano, et C. Otero<br />
Arean, "EXAFS studies on MFI-type gallosilicate molecular sieves”, 63, 213-216<br />
(1999).<br />
5. G. Berlier, G. Spoto, S. Bordiga, G. Ricchiardi, P. Fisicaro, A. Zecchina, I. Rossetti, E.<br />
Selli, L. Forni, E. Giamello, et C. Lamberti, "Evolution of extraframework iron species<br />
in Fe silicalite. 1. Effect of Fe content, activation temperature, and interaction with<br />
redox agents”, J. Catal. 208, 64-82 (2002).<br />
6. D. W. Breck, Zeolite Molecular Sieve: Structure, Chemistry, and Use (Wiley, 1973).<br />
7. L. B. McCusker, C. Baerlocher, et D. Olson, Atlas of Zeolite Framework Types<br />
(Elsevier, 2007).<br />
8. S. T. Sie, "Past, present and future role of microporous catalysts in the petroleum<br />
industry”, Stud. Surf. Sci. Catal. 85, 587-631 (1994).<br />
9. A. Corma, "State of the art and future challenges of zeolites as catalysts”, J. Catal. 216,<br />
298-312 (2003).<br />
10. G. T. Kokotailo, S. L. Lawton, D. H. Olson, et W. M. Meier, "Structure of synthetic<br />
zeolite ZSM-5”, Nature 272, 437-438 (1978).<br />
11. R. J. Argauer, M. Kensington, G. R. Landolt, et N. J. Audubon, "Crystalline zeolite<br />
ZSM-5 and method of preparing the same”, U.S. patent 3,702,886 (1972).<br />
12. E. M. Flanigen, J. M. Bennett, R. W. Grose, J. P. Cohen, R. L. Patton, R. M. Kirchner,<br />
et J. V. Smith, "Silicalite, a new hydrophobic crystalline silica molecular sieve”, Nature<br />
271, 512-516 (1978).<br />
13. A. Nastro, P. Ciambelli, F. Crea, et R. Aiello, "Thermal analysis of zeolite ZSM-5<br />
precursors with different Si/Al ratios”, J Therm. Anal. 33, 941-946 (1988).<br />
14. E. Mateo, R. Lahoz, G. F. <strong>de</strong> la Fuente, A. Paniagua, J. Coronas, et J. Santamaría,<br />
"Growth of silicalite-1 by a method involving separation of reactants”, Chem. Mater.<br />
19, 594-599 (2007).<br />
15. T. Ban, H. Mitaku, C. Suzuki, T. Kume, Y. Ohya, et Y. Takahashi, "Silicalite-l<br />
synthesis from silicate aqueous solutions including amines as a base”, J. Porous Mat. 12,<br />
255-263 (2005).<br />
16. V. P. Valtchev, A.-C. Faust, et J. Lézervant, "Rapid synthesis of silicalite-1 nanocrystals<br />
by conventional heating”, Micropor. Mesopor. Mater. 68, 91-95 (2004).<br />
17. J. Dong, Y. S. Lin, M. Z.-C. Hu, R. A. Peascoe, et E. A. Payzant, "Template-removal-<br />
associated microstructural <strong>de</strong>velopment of porous-ceramic-supported MFI zeolite<br />
membranes”, Micropor. Mesopor. Mater. 34, 241-253 (2000).<br />
18. V. P. Shiralkar et A. Clearfield, "Synthesis of the molecular sieve ZSM-5 without the<br />
aid of templates”, Zeolites 9, 363-370 (1989).<br />
25
Change language