References
- Waldeck , B. 2003 . Three‐dimensional pharmacology a subject ranking from ignorante to obrestatements . Pharmacology and Toxicology , 93 : 203
- Sheldrake , G. N. and Crosby , J. 1992 . Chirality in industry Edited by: Collins , A. N. New York : Wiley .
- Crosby , J. 1991 . Synthesis of optically active compounds: a large scale perspective . Tetrahedron , 47 : 4789
- Pirkle , W. H. and Bowen , W. E. 1994 . Preparative separation of enantiomers using hollow‐fiber membrane technology . Tetrahedron: Asymmetry , 5 : 773
- Keurentjes , J. T.F. , Nabuurs , L. J.W.M. and Vegter , E. A. 1996 . Liquid membrane technology for the separation of racemic mixtures . J. Memb. Sci. , 113 : 351
- Armstrong , D. W. , Ward , T. J. , Armstrong , R. D. and Beesley , T. E. 1986 . Separation of drug stereoisomers by the formation of β‐cyclodextrin inclusion complexes . Science , 232 : 1132
- Abe , Y. , Shoji , T. , Kobayashi , M. , Qing , W. , Asai , N. and Nishizawa , H. 1995 . Enantioselective distribution of amino‐alcohols in a liquid‐liquid two‐phase system containing dialkyl l‐tartrate and boric acid . Chem Pharm. Bull. , 43 ( 2 ) : 262
- Newcomb , M. , Toner , J. L. , Helgeson , R. C. and Cram , D. J. 1979 . Host‐guest complexation. Chiral recognition in transport as a molecular basis for a catalytic resolving machine . J. Am. Chem. Soc. , 101 : 4941
- Saenger , W. 1980 . Cyclodextrin inclusion compounds in research and industry . Angew. Chem. Int. Ed. Eng. , 19 : 344
- Szejtli , J. 1982 . Cyclodextrins and their Inclusion Complexes 13 Budapest : Akadémiai Kiadó .
- Uekama , K. 1981 . Pharmaceutical application of cyclodextrin complexation . Yakugaku Zasshi , 101 : 857
- Saenger , W. 1980 . Cyclodextrin inclusion compounds in research and industry . Angew. Chem. Int. Ed. Eng. , 19 : 344
- Szejtli , J. 1982 . Cyclodextrins and their Inclusion Complexes 13 Budapest : Akadémiai Kiadó .
- Cabral Marques , H. M. 1994 . Structure and properties of cyclodextrins. Inclusion complex formation . Rev. Port. Farm. , 64 ( 2 ) : 77
- Cserháti , T. and Forgács , E. 2003 . “ Cyclodextrins in chromatography ” . In The Royal Society of Chemistry 48 UK
- Armstrong , D. W. , Ward , T. J. , Armstrong , R. D. and Beesley , T. E. 1986 . Separation of drug stereoisomers by the formation of β‐cyclodextrin inclusion complexes . Science , 232 : 1132
- Ward , T. J. and Armstrong , D. W. 1986 . Improved cyclodextrin chiral phases: a comparison and review . J. Liq. Chromatogr. , 9 : 407
- Fujimura , K. , Suzuki , S. , Hayashi , K. and Masuda , S. 1990 . Retention behaviour and chiral recognition mechanism of several cyclodextrin‐bonded stationary phases for dansyl amino acids . Anal. Chem. , 62 : 20 2198
- Fortunato , R. , Muñoz , M. J.G. , Kubasiewicz , M. , Luque , S. , Alvarez , J. R. , Afonso , C. A.M. , Coelhoso , I. M. and Crespo , J. G. 2005 . Liquid membranes using ionic liquids: influence of water on solute transport . J. Membrane Sci. , 249 ( 1–2 ) : 153
- Coelhoso , I. M. , Crespo , J. P.S.G. and Carrondo , M. J.T. 1997 . Kinetics of liquid membrane extraction in systems with variable distribution coefficient . Journal of Membrane Science , 127 : 141
- Armstrong , D. W. and Jin , H. L. 1987 . Enrichment of enantiomers and other isomers with aqueous liquid membranas containing cyclodextrin carriers . Anal. Chem. , 59 : 2237
- Garcia , S. , Vaz , S. , Alves , V. D. and Coelhoso , I. M. 1998 . “ Fruit Juice Concentration by Osmotic Evaporation ” . In Proceedings of the 7th International Chemical Engineering Conference (CHEMPOR'98) 1289 Lisboa, , Portugal
- Fortunato , R. , Afonso , C. A.M. , Reis , M. A.M. and Crespo , J. G. 2004 . Supported liquid membranes using ionic liquids: study of stability and transport mechanisms . J. Membrane Sci. , 242 : 197
- Gumí , T. , Valiente , M. and Palet , C. 2004 . Characterization of a supported liquid membrane based system for the enantioseparation of SR‐propranolol by N‐hexadecyl‐l‐hydroxyproline . Sep. Sci. Tech. , 39 ( 2 ) : 431
- Gumí , T. , Valiente , M. and Palet , C. 2005 . Elucidation of SR‐propranolol transport rate and enantioselectivity through chiral activated membranes . J. Membrane Sci. , 256 : 150