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[96] J.L. Guth, P. Caullet, A. Sieve, J. Patarin, F. Delprato, in: Barthomeuf (Ed.),
Guidelines For Mastering The Properties of Molecular Sieves, Plenum Press, New
York, NY, 1990, p. 69.
[97] E.M. Flanigen, Molecular sieve zeolite technology
The first twenty five years, Pure
and Appl.Chem, 52 (1980) 2191
2211.
[98] X. Qiuhua, Z. Huizhu, D. Jialu, W. Rui, Hydrothermal synthesis and growth of
Zeolites, Kexue Tongbao 25 (1980) 833.
[99] P. Feng, X. Bu, T.E. Gier, G.D. Stucky, Amine-directed syntheses and crystal struc-
ture of phosphate based zeolite analogs, Microporous Mesoporous Mater. 23 (1998)
221
229.
[100] J.C. Jansen, in: H. Van Bekkum, E.M. Flanigen, J.C. Jansen (Eds.), Introduction to
Zeolite Science and Practice, Elsevier, Amsterdam, 1991, p. 77.
[101] K. Egeblad, C.H. Christensen, M. Kustova, C.H. Christensen, Templating mesoporous
zeolites, Chem. Mater. 20 (2008) 946
960.
[102] J.A. Martens, J. Jammaer, S. Bajpe, A. Aerts, Y. Lorgouilloux, C.E.A. Kirschhock,
Simple synthesis recipes of porous materials, Microporous Mesoporous Mater. 140
(2011) 2
8.
[103] K. Na, C. Jo, J. Kim, J. Cho, Y. Seo, R.J. Messinger, et al., Directing zeolite
structures
into
hierarchically
nanoporous
architectures, Science
333 (2011)
328
332.
[104] B.M. Lok, T.R. Cannan, C.A. Messina, The role of organic molecules in molecular
sieve synthesis, Zeolites 3 (1983) 282
291.
[105] A. Moini, K.D. Schmitt, E.W. Valyocsik, R.F. Polomski, The role of diquaternary
cations as directing agents in zeolite synthesis, in: J. Weitkamp, H.G. Karge, H.
Pfeifer, W. Holderich (Eds.), Zeolites and Related Microporous Materials: State of
the Art, 84, 1994, Studies in Surface Science and Catalysis.
[106] M. Yoshimura, W. Suchanek, K. Byrappa, Soft, solution processing—a strategy for
advanced materials processing in the 21st century, MRS Bull.
(September Issue)
(2000).
[107] C.R. Martin, Membrane-based synthesis of nanomaterials, Chem. Mater. 8 (1996)
1739
1746.
[108] P.M. Ajayan, O. Stephan, P. Redlich, C. Colliex, Carbon nanotunes as removable
templates for metal oxide nanocomposites and nanostructures, Nature 375 (1995)
564
567.
[109] S. Schact, Q. Huo, I.G. Voigt-Martin, G.D. Stucky, F. Schuth, Oil-Water Interface
Templating of Mesophorous Structures, Science 273 (1996) 768
771.
[110] B. Mutaftschiev, Nucleation theory, in: D.T.J. Hurle (Ed.), Handbook of Crystal
Growth, 1, Elsevier Science B. V., UK, 1993.
[111] A.S. Myerson, A.F. Izmailov, The structure of supersaturated solutions, in: D.T.J.
Hurle (Ed.), Handbook of Crystal Growth, 1, Elsevier Science B. V., UK, 1993.
[112] J. Warzywoda, R.W. Thompson, Zeolite crystallization with autocatalytic nucleation,
Zeolites 9 (1989) 341
345.
[113] P.A. Jacobs, in: E.G. Derouane, F. Lemos, C. Naccache, F.R. Ribeiro (Eds.), Zeolite
Microporous Solids: Synthesis Structure and Reactivity, Vol. 352, Kluwer Academic,
Dordrecht, 1992, NATO ASI Series.
[114] W.H. Chen, H.C. Hu, T.Y. Lee, Transient crystallization and crystal size distribution
of zeolite A, Chem. Eng. Sci. 48 (1993) 3683
3691.
[115] R. Roy, Accelerating the kinetics of low-temperature inorganic syntheses, J. Solid
State Chem. 111 (1994) 11
17.
