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Selectivity and Molecular Sieving Effects of Organic Compounds by a β-Cyclodextrin-Pillared Layered Double Hydroxide

Published online by Cambridge University Press:  28 February 2024

Hongting Zhao  and
George F. Vance
Hongting Zhao
Affiliation:
Soil and Environmental Chemistry Group, Department of Renewable Resources, University of Wyoming, Laramie, Wyoming 82071-3354
George F. Vance
Affiliation:
Soil and Environmental Chemistry Group, Department of Renewable Resources, University of Wyoming, Laramie, Wyoming 82071-3354
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Abstract

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Keywords

β-CyclodextrinIntercalation CompoundLayered Double HydroxideOrganic CompoundsSelectivitySieving Effects
Type
Notes
Information
Clays and Clay Minerals , Volume 46 , Issue 6 , December 1998 , pp. 712 - 718
Copyright
Copyright © 1998, The Clay Minerals Society

References

Barrer, R.M., 1978 Zeolites and clay minerals as sorbents and molecular sieves London Academic.Google Scholar
Barrer, R.M., 1989 Shape-selective sorbents based on clay minerals: A review Clays Clay Miner 37 385395 10.1346/CCMN.1989.0370501.CrossRefGoogle Scholar
Bender, M.L. and Komiyama, M., 1978 Cyclodextrin chemistry Berlin-Heidelberg-New York Springer-Verlag 10.1007/978-3-642-66842-5.CrossRefGoogle Scholar
Boyd, S.A. Jaynes, W.F. and Ross, B.S., 1991 Immobilization of organic contaminants by organo-clays: Application to soil restoration and hazardous waste contaminants Organic substances and sediments in water 1 181200.Google Scholar
Cadena, F. Cazares, E. and Sawhney, B.L., 1996 Use of organozeolites for the removal of organic contaminants from water CMS workshop lectures, vol. 8, Organic pollutants in the environment Boulder, CO Clay Miner Soc 6994.Google Scholar
Carrado, K.A. Forman, H.E. Botto, R.E. and Winans, R.E., 1993 Incorporation of phthalocyaninies by cationic and anionic clays via ion exchange and direct synthesis Chem Mater 5 472478 10.1021/cm00028a013.CrossRefGoogle Scholar
Cavani, F. Trifiro, F. and Vaccari, A., 1991 Hydrotalcite-type anionic clays: Preparation, properties and applications Catalysis Today 11 173301 10.1016/0920-5861(91)80068-K.CrossRefGoogle Scholar
Chibwe, K. and Pinnavaia, T.J., 1993 Stabilization of a Cobalt (II) phthalocyanine oxidation catalyst by intercalation in a layered double hydroxide host J Chem Soc, Chem Commun 3 278280 10.1039/c39930000278.CrossRefGoogle Scholar
Chiou, C.T. Peter, L.J. and Freed, V.H., 1979 A physical concept of soil-water equilibria for nonionic organic compounds Science 206 831832 10.1126/science.206.4420.831.CrossRefGoogle ScholarPubMed
Clearfield, A. Kieke, M. Kwan, J. Colon, J.L. and Wang, R.-C., 1991 Intercalation of dodecyl sulfate into layered double hydroxide J Inclusion Phenom Mol Recognit Chem 11 361378 10.1007/BF01041414.CrossRefGoogle Scholar
Fenyvesi, E. Szemán, J. and Szejtli, J., 1996 Extraction of PAHs and pesticides from contaminated soils with aqueous CD solutions J Inclusion Phenom Mol Recognit Chem 25 229232 10.1007/BF01041575.CrossRefGoogle Scholar
Jaynes, W.F. and Boyd, S.A., 1990 Trimethylphenylammonium-smectite as an effective adsorbent of water soluble aromatic hydrocarbons J Air Waste Manage Assoc 40 16491653 10.1080/10473289.1990.10466811.CrossRefGoogle ScholarPubMed
Jaynes, W.F. and Boyd, S.A., 1991 Clay mineral type and organic compound sorption by hexadecyltrimethylammonium-ex-changed clays Soil Sci Soc Am J 55 4348 10.2136/sssaj1991.03615995005500010007x.CrossRefGoogle Scholar
Jaynes, W.F. and Vance, G.F., 1996 BETX sorption by organo-clays: Cosorptive enhancement and equivalence of interlayer complexes Soil Sci Soc Am J 60 17421749 10.2136/sssaj1996.03615995006000060019x.CrossRefGoogle Scholar
Lagaly, G. and Beneke, K., 1991 Intercalation and exchange reactions of clay minerals and non-clay layer compounds Colloid Polym Sci 269 1198 10.1007/BF00652529.CrossRefGoogle Scholar
Lee J-F Mortland, M.M. and Boyd, S.A., 1989 Shape-selective adsorption of aromatic molecules from water by tetrameth-ylammonium-smectite J Chem Soc, Faraday Trans 85 29532962 10.1039/f19898502953.Google Scholar
Lindoy, L.E., 1989 The Chemistry of macrocyclic ligand complex Cambridge Cambridge Univ Pr 164173 10.1017/CBO9780511564376.CrossRefGoogle Scholar
Lyman, W.J. Reehl, W.F. and Rosenblatt, D.H., 1981 Handbook of chemical property estimation methods New York McGraw-Hill.Google Scholar
Kijima, T. and Matsui, Y., 1986 A new type of host compound consisting of a-zirconium phosphate and an aminated cyclodextrin Nature 322 533534 10.1038/322533a0.CrossRefGoogle Scholar
Kijima, T. Tanaka, J. and Matsui, Y., 1984 A complex of copper (Il)-montmorillonite with a modified cyclodextrin Nature 310 4547 10.1038/310045a0.CrossRefGoogle Scholar
Meyn, M. Beneke, K. and Lagaly, G., 1990 Ion-exchange reactions of layered double hydroxides Inorg Chem 29 52015207 10.1021/ic00351a013.CrossRefGoogle Scholar
Miyata, S. and Kumura, T., 1973 Synthesis of new hydrotalcite-like compounds and their physio-chemical properties Chem Lett 843848.CrossRefGoogle Scholar
Mondik, P. Sopkova, A. Suchar, G. and Wadsten, T., 1992 Cyclodextrin incorporated in natural zeolitic materials of the Cli-noptilolite type J Inclusion Phenom Mol Recognit Chem 13 109119 10.1007/BF01053634.CrossRefGoogle Scholar
Pauling, L., 1960 The nature of the chemical bond New York Cornell Univ Pr.Google Scholar
Pinnavaia, T.J., 1983 Intercalated clay catalysts Science 220 365371 10.1126/science.220.4595.365.CrossRefGoogle ScholarPubMed
Szejtli, J., 1982 Cyclodextrins and their inclusion complexes Budapest, Hungary Akadémiai Kiadó.Google Scholar
Wang, X. and Brausseau, M.L., 1993 Solubilization of some low-polarity organic compounds by hydroxypropyl-ß-cyclodex-trin Environ Sci Technol 27 28212825 10.1021/es00049a023.CrossRefGoogle Scholar
Wang, X. and Brausseau, M.L., 1995 Simultaneous complexation of organic compounds and heavy metals by a modified cy-clodextrin Environ Sci Technol 29 26322635 10.1021/es00010a026.CrossRefGoogle Scholar
Zhao, H.T. and Vance, G.E., 1997 Intercalation of carboxymethyl β-cyclodextrin into magnesium-aluminum layered double hydroxide J Chem Soc, Dalton Trans 11 19611965 10.1039/a607604a.CrossRefGoogle Scholar
Zhao, H.T. and Vance, G.F., 1998 Molecular inclusion properties of hydrophobic organic compounds by a modified ß-cyclo-dextrin intercalated within a layered double hydroxide J Inclusion Phenom Mol Recognit Chem 6 113.Google Scholar