Geoscience Reference
In-Depth Information
[73] E.M. Flanigen,
in: L.V.C. Rees
(Ed.), Proceedings of
the Fifth International
Conference on Zeolites, Heyden, London, 1980, p. 760.
[74] W. Loewenstein, The distribution of aluminum in the tetrahedra of silicates and alumi-
nates, Am. Mineral. 39 (1954) 92
96.
[75] E.M. Flanigen, R.L. Patton, S.T. Wilson, Cracking properties of SAPO-37 and
Faujasites, Innovation in Zeolite Materials Science, Stud. Surf Sci. Catal. 37 (1988)
13
27.
[76] T.E. Gier, G.D. Stuckey, Low Temperature Synthesis of Hydrated Zinco(beryllo)-
Phosphate and Arsenate Molecular Sieves, Nature 346 (1991) 508.
[77] R. Xu, J. Chen, C. Feng, New families of M(III)X(V)04-type microporous crystals and
inclusion compounds, Stud. Surf. Sci. Catal. 60 (1991) 63
72.
[78] A. Katovic, B. Subotic, I. Smit, L.A. Despotovic, M. Curie, in: M.L. Ocelli, H.E.
Robson (Eds.), Zeolite Synthesis, ACS Symposium Series, 398, 1989, p. 124.
[79] J.D. Cook, R.W. Thompson, Modeling the effect of gel aging, Zeolites 8 (1988)
322
326.
[80] S.P. Zhdanov, N.N. Samulevich, in: L.V.C. Rees (Ed.), Proceedings of the Fifth
International Conference on Zeolites, Heyden, London, 1980, p. 75.
[81] B. Subotic, J. Bronic, in: Y. Murakami, A. Lijima, J.W. Ward (Eds.), Proceedings of
the Seventh International Zeolite Conference, Tokyo, 1986, p. 45.
[82] C.N. Wu, K.J. Chao, Synthesis of faujasite zeolites with crown-ether templates,
J. Chem. Soc. Farad. Trans. 91 (1995) 167
173.
[83] A.T. Bell, in: M.L. Occelli, H.E. Robson (Eds.), Zeolite Synthesis, ACS Symposium
Series, 398, 1989, p. 66.
[84] J.P. Gilson, in: E.G. Derouane, F. Lemos, C. Naccache, F.R. Ribeiro (Eds.), Zeolite
Microporous Solids: Synthesis, Structure and Reactivity, Kluwer Academic, Dordrecht,
1992, NATO ASI Series, 352, 19.
[85] K. Byrappa, Hydrothermal growth of crystals, in: D.T.J. Hurle (Ed.), Handbook of
Crystal Growth, Elsevier North-Holland, Amsterdam, 1994, p. 465.
[86] R.M. Barre, Trans. Seventh International Ceramic Congress, British Ceramic Society
Publisher Clowes, London, 1960.
[87] E.M. Flanigen, R.L. Patton, US Patent 4073864, 1978.
[88] J.L. Guth, H. Kessler, J.M. Higel, J.M. Lamblin, J. Patarin, A. Seive, et al., Synthesis
and characterization of defect-free crystals of MFI-type zeolites, Zeolite synthesis,
ACS Symp. Ser. 398 (1989) 176.
[89] Xu Qinhua, B. Shullin, D. Jialu, The recrystallization of Zeolite Molecular Sieves-
recrystallization Mechanism of 4A to NaY Zeolite, Sci. Sinica (Ser. B) 25 (1982) 349.
[90] D.T. Hayhurt, L.B. Sand, Molecular sieves II, ACS Symp. Ser. 40 (1977) 219.
[91] K.J. Chao, T.G. Tasi, M.S. Chen, I. Wang, Kinetic studies on the formation of zeolites,
ZAM-5, J. Chem. Soc. Farad. I 77 (1981) 465
555.
[92] B.D. Witte, J. Patarin, D. Nouen, L. Delmotte, J.L. Guth, T. Cholley, Cyclic polyols: a
new class of structure-directing agents? Study of inositol in the synthesis of FAU and
LTA-type zeolites, Microporous Mesoporous Mater. 23 (1998) 11
22.
[93] H. Lechert, The pH value and its importance for the crystallization of zeolites, in: H.
Robson (Ed.), Microporous Macroporous Material, vol. 22, Karl Petter, Lillerud, 1998,
pp. 519
523.
[94] G.A. Ozin, Nano chemistry synthesis in diminishing dimensions, Adv. Mat. 4 (1992)
612
649.
[95] S. Mann, Molecular tectonics in biomaterialization and biometric materials chemistry,
Nature 365 (1993) 499
505.
