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Internal Surface of Clays and Constrained Chemical Reactions

Published online by Cambridge University Press:  02 April 2024

J. J. Fripiat
J. J. Fripiat*
Affiliation:
Centre National de la Recherche Scientifique, 1B rue de la Ferrollerie, 45045 Orleans Cedex, France
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Abstract

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Keywords

CatalysisChiral reactionsColloid scienceHydrophobicityIntercalationInterlayer spaceIsomerizationPillaringSmectiteSupramolecular organization
Type
Meeting Report
Information
Clays and Clay Minerals , Volume 34 , Issue 5 , October 1986 , pp. 501 - 506
Copyright
Copyright © 1986, The Clay Minerals Society

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References

Abdo, S., Canesson, P., Van Damme, H., Cruz, M. and Fripiat, J. J., 1981 Photochemical and photocatalytic properties of adsorbed organometallic compounds. II. Structure and photoreactivity of tris(2,2’-bypyridine) ruthenium II and chromium II at the solid-gas phase interface on hectorite J. Phys. Chem. 85 797809.CrossRefGoogle Scholar
Alcover, J. F., Van Damme, H., Gatineau, L., Levitz, P. and Fripiat, J. J., 1985 The fractal dimension of clay surfaces and clay aggregates at the molecular and at the particle scale Program and Abstracts, Int. Clay Conf, Denver, 1985 (in press).Google Scholar
Ballantine, J. A. and Setton, R., 1986 The reaction in clays and pillared clays Chemical Reactions in Organic and Inorganic Constrained Systems Dordrecht NATO ASI Series C 165, Reidel 197212.CrossRefGoogle Scholar
Barrer, R.M., 1978 Zeolites and Clay Minerals as Sorbents and Molecular Sieves London Academic Press.Google Scholar
Brindley, G. W., van Olphen, H. and Veniale, F., 1982 The teaching of clay mineralogy Proc. Int. Clay Conf., Bologna, Pavia, 1981 Amsterdam Elsevier 1521.Google Scholar
Brindley, G. W. and Sempel, R. E., 1977 Preparation and properties of some hydroxy-aluminium beidellites Clay Miner. 12 229237.CrossRefGoogle Scholar
Casai, B., Ruitz-Hitzky, E., Serratosa, J. M. and Fripiat, J. J., 1984 Vibrational spectra of ammonium ion in crownether-NH4 +-montmorillonite complexes J. Chem. Soc., Faraday Trans. I 80 22252232.Google Scholar
Chourabi, G. and Fripiat, J. J., 1981 Determination of tetrahedral substitution and interlayer surface heterogeneity from vibrational spectra of ammonium in smectites Clays & Clay Minerals 29 260268.CrossRefGoogle Scholar
Cruz, M. I., Nijs, H., Fripiat, J. J. and Van Damme, H., 1982 Photochemical and photocatalytic properties of adsorbed coordination compounds. III. Cis ⇌ trans isomerization of Ru(bpy)2(H2O)2 2+ on layer lattice silicates J. Chim. Phys. (Paris) 79 753757.CrossRefGoogle Scholar
Fripiat, J. J., Cases, J., François, M. and Letellier, M., 1982 Thermodynamic and microdynamic behaviour of water in clay suspensions and gels J. Colloid Interface Sci. 89 378400.CrossRefGoogle Scholar
Garwood, G. A., Mortland, M. M. and Pinnavaia, T. J., 1983 Immobilization of glucose oxidase on montmorillonite clay: hydrophobic and ionic modes of binding J. Molec. Catal. 22 153163.CrossRefGoogle Scholar
Lahav, N., Shari, U. and Shabtai, J., 1978 Cross-linked smectites. I. Synthesis and properties of hydroxy-aluminum montmorillonite Clays & Clay Minerals 26 107115.CrossRefGoogle Scholar
Lehn, J. M., Sauvage, J. P. and Ziessel, R., 1979 Thermal and photoinduced oxidation of water. Continuous generation of oxygen by visible light irradiation of aqueous solutions of metal complexes Nouv. J. Chim. 3 423427.Google Scholar
Loeppert, R H Jr, Mortland, M. M. and Pinnavaia, T. J., 1979 Synthesis and properties of heat-stable expanded smectite and vermiculite Clays & Clay Minerals 27 201208.CrossRefGoogle Scholar
Mazzei, M., Marconi, W. and Riocci, M., 1980 Assymetric hydrogenation of substituted acrylic acids by Rh-amino-phosphine chiral complex supported on mineral clays J. Molecul. Catal. 9 381387.CrossRefGoogle Scholar
Mortland, M. M., 1968 Protonation of compounds at clay mineral surfaces Trans. 9th Int. Cong. Soil Sci., Adelaide, Vol. 1, Int. Soil Sci. Soc., Amsterdam 691699.Google Scholar
Mortland, M. M. and Berkheiser, B., 1976 Triethylene diamine-clay complexes as matrices for adsorption and catalytic reactions Clays & Clay Minerals 24 6063.CrossRefGoogle Scholar
Nijs, H., Cruz, M. I., Fripiat, J. J. and Van Damme, H., 1982 Photooxidation of water in colloidal clay suspensions and in aqueous solutions using Ru(bpy)2(H20)2 2+ as catalyst Nouv. J. Chim. 6 551557.Google Scholar
Pinnavaia, T. J., 1983 Intercalated clay catalysts Science 220 6568.CrossRefGoogle ScholarPubMed
Plee, D., Borg, F., Gatineau, L. and Fripiat, J. J., 1985 High resolution 27Al and 29Si nuclear magnetic resonance study of pillared clays J. Amer. Chem. Soc. 107 23622369.CrossRefGoogle Scholar
Pons, C. H., Rousseaux, F. and Tchoubar, D., 1981 Utilisation du rayonnement synchrotron en diffusion aux petits angles pour l’étude du gonflement des smectites: I. Etude du système eau-montmorillonite-Na en fonction de la température Clay Miner. 16 2342.CrossRefGoogle Scholar
Serratosa, J. M. and Bailey, S. W., 1966 Infrared analysis of pyridine molecules in clay complexes Clays and Clay Minerals, Proc. 14th Natl. Conf., Berkeley, California, 1965 New York Pergamon Press 385391.Google Scholar
Schoonheydt, R. A., Marien, V. and Van Brabant, H., 1984 The chemistry of rhodium on the surface of hectorite J. Molecul. Catal. 27 253265.Google Scholar
Schoonheydt, R. A. and Pelgrims, J., 1983 Preparation, spectroscopy and reaction with oxygen of [Co(en)2]2+ on the surface of hectorite J. Chem. Soc. Faraday Trans. 2 29 11691180.CrossRefGoogle Scholar
Schutz, A., Plee, D., Borg, F., Jacobs, P., Poncelot, G., Fripiat, J. J., Schultz, L. G., van Olphen, H. and Mumpton, F. A., 1986 Acidity and catalytic properties of pillared montmorillonite and beidellite Proc. Int. Clay Conf, Denver, 1985 Indiana The Clay Minerals Society, Bloomington (in press).Google Scholar
Shabtai, J., Frydman, N. and Lazar, R., 1977 Synthesis and catalytic properties of 1,4-diazobicyclo (2,2,2)octane- montmorillonite system: a novel type of molecular sieve Proc. 5th Int. Cong. Catalysis 1976 660667.Google Scholar
Tessier, D., Pedro, G., van Olphen, H. and Veniale, F., 1982 Electron microscopy study of Na+ smectite fabric. Role of layer charge, salt concentration and suction parameter Proc. Int. Clay Conf, Bologna, Pavia, 1981 Amsterdam Elsevier 165185.Google Scholar
Theng, B. K. G., 1979 Formation and Properties of Clay-Polymer Complexes Amsterdam Elsevier.Google Scholar
Thomas, J. M., Wittingham, M. S. and Jacobson, A. J., 1982 Sheet silicate intercalates: new agents for unusual chemical conversion Intercalation Chemistry New York Academic Press 5687.Google Scholar
Van Damme, H. and Fripiat, J. J., 1985 A fractal analysis of adsorption processes by pillared swelling clays J. Chem. Phys. 82 27852789.CrossRefGoogle Scholar
Van Damme, H., Levitz, P., Fripiat, J. J., Alcover, J. F., Gatineau, L., Bergaya, F., Boccara, N. and Daoud, M., 1985 Clay minerals: a molecular approach to their (fractal) microstructure The Physics of Finely Divided Matter Berlin Springer Verlag 2430.CrossRefGoogle Scholar
Van Damme, H., Nijs, H. and Fripiat, J. J., 1984 Photocatalyzed reactions on clay surfaces J. Molecul. Catal. 27 123142.CrossRefGoogle Scholar
Van Damme, H., Obrecht, F. and Letellier, M., 1984 Intercalation of tetrathiafulvalene in smectite clay: evidence for charge transfer reactions Nouv. J. Chim. 8 681683.Google Scholar
Van Leemput, L., Stul, M. S., Maes, M., Uytterhoeven, J. B. and Cremers, A., 1983 Surface properties of smectites exchanged with mono- and biprotonated 1,4-diazobicyclo (2,2,2)-octane Clays & Clay Minerals 31 261268.CrossRefGoogle Scholar
van Olphen, H., 1977 Clay Colloid Chemistry 2nd ed. New York Wiley.Google Scholar
Vaughan, D. E. W. and Luissier, R. J. (1980) in Proc. 5th Int. Zeolite Cong., Naples, 1980, Rees, L. V. C., ed., Heyden, London, 94101.Google Scholar