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[155] U. Romano, A. Esposito, F. Maspero, et al., New developments in selective oxidation,
in: Leonard Curtis Luckwill (Ed.), Proceedings of the International Symposium,
Rimini, Paper B1, University of Bologna, Bologna, 1989.
[156] P. Roffia, G. Leofanti, A. Casana, et al., New developments in selective oxidation, in:
Leonard Curtis Luckwill (Ed.), Proceedings of the International Symposium, Rimini,
Paper 42, University of Bologna, Bologna, 1989.
[157] A.S. Kharitonov, V.I. Sobolev, G.I. Panov, Hydrothermal of aromatic compounds
with nitrous oxide, new possibilities of oxidative catalysis on zeolites, Uspekhi Khimi
61 (1992) 2062
2077.
[158] S.T. Wilson, E.M. Flanigen, Eur. Pat. Appl. 132, ZSM-5 type zeolites: SZM-5 type
zeolites: synthesis and use in gasphase reactions with ammonia, (1985) 708.
[159] J.A. Rabo, M.L. Poutsma, G.W. Skeels, in: J. Hightower (Ed.), Proceedings of the
Fifth International Congress Catalogues, North-Holland, New York, NY, 1973,
pp. 1353
1361.
[160] J.A. Rabo, Salt occlusion in zeolite crystals, in: J.A. Rabo (Ed.), Zeolite Chemistry
and Catalysis, ACS Monograph 171, American Chemical Society, Washington, DC,
1976, pp. 332
349.
[161] A. Clearfield, C.H. Saldarriaga, R.C. Buckley, in: J.B. Uytterhoeven (Ed.),
Proceedings of the Third International Conference on Molecular Sieves, University of
Leuven Press, Zurich, 1973, pp. 241
245. Paper 130.
[162] A. Clearfield, Hydrothermal synthesis of selected phosphates and molybdates, in: K.
Byrappa (Ed.), Hydrothermal Growth of Crystals, Prog. Crystal Growth Charact., 21
(1990) 1
28.
[163] A.V. Kucherov, T.N. Kucherova, A.A. Slinkin, in: Recent Res. Rep. Int. Symp.
Zeolites Chemistry Catalysis, Prague, September 8
13, 1991, p. 69.
[164] A.A. Slinkin, A.V. Kucherov, S.S. Goryashenko, K.I. Slovetskaya, in: Julie A Rabo
(Ed.), Proceedings of the All-Union Conference on Use of Zeolites in Catalysis,
Moscow (in Russian) 1989, p. 191.
[165] A.A. Slinkin, A.V. Kucherov, S.S. Goryaskenko, E.G. Aleshin, K.I. Slovetskaya, in:
M.J. Winter
(Ed.), Proceedings of
the Eighth Soviet-French Seminar Catal.,
Novosibirsk, 1990, p. 153.
[166] A.V. Kucherov, A.A. Slinkin, Solid-state reaction as a way to transit metal cation
introduction into high-silica zeolites, J. Mol. Catal. 90 (1994) 323
354.
[167] A.V. Kucherov, T.N. Kucherova, On the mechanism of nitric oxide decomposition
over Cu-ZSM-5, A.A. Slinkin, Kinet. Katal. 33 (1992) 877.
[168] T. Loiseau, G. Ferey, Oxyfluorinated microporous compounds, J. Solid State Chem.
Ill (1994) 403
415.
[169] T. Loiseau, R. Retoux, P. Lacorre, G. Ferey, Oxyfluorinated microporous compounds,
J. Solid State Chem. 111 (1994) 427
436.
[170] A. Muller, M.T. Pope, Polyoxometalate Chemistry: An old field with new dimensions
in several disciplines, Angew. Chem. Intl. Ed. 30 (1991) 34.
[171] V. Soghomonian, Q. Chen, R.C. Haushalter, J. Zubieta, Vanadium phosphate frame-
work solid constructed of octahedra, square pyramids, and tetrahedra with a cavity
diameter of 18.4
˚
, Angew Chem. Int. Ed. 32 (1993) 610
612.
[172] R.C. Haushalter, L.A. Mundi, Reduced molybdenum phosphates: octahedral tetrahe-
dral framework solids with tunnels, cages and micropores, Chem. Mater. 4 (1992)
31
48.
