References
- Li S, Purdy W C. Cyclodextrins and their applications in analytical chemistry. Chem Rev 1992; 1457
- Meric R, Vigneron J P, Lehn J-M. Complexation of quaternary ammonium cations by a new basket-shaped macrotricylic cyclophane. Bull Soc Clin Fr 1994; 131: 579
- Schneider H J, Schiestel T, Schneider U. The incremental approach to non-covalent interactions: coulomb and Van der Waals effects in organic ion pairs. J Am Chem Soc 1992; 114: 7698
- Bussmann W, Lehn J-M, Oesch U, Plumere P, Simon W. Enantiomer-selectivity for phenylethyl-ammonium ion of membranes based on a chiral macrocylic polyether. Helv Chim Acta 1981; 64: 557
- Prelog V, Bedekovic D. Chiral 2–2′, polyoxaalkano 9,9′ spirobifluorenes. Helv Chim Acta 1979; 62: 2285
- Kataky R, Bates P S, Parker D. Functionalised α-cyclodextrin as potentiometric chiral sensors. Analyst 1994; 119: 181
- Bates P S, Parker D, Patti A F. Synthesis and spectroscopic characterisation of lipophilic, octylated α, β and γ cyclodextrin derivatives. J Chem Soc Perkin Trans 1994; 2: 657
- Kataky R, Nicholson P G, Parker D, Covington A K. Comparative performances of 14-crown-4 derivatives as lithium selective electrodes. Analyst 1991; 116: 135
- Goldenberg R N, Manley J L, Nuttall R L. ‘Gamphi’, a database of activity and osmotic coefficients for aqueous electrolyte solutions, NBS, Technical Note 1206. US Government Printing Office, Washington, DC 1985
- Bates P S, Parker D, Green B N. Characterisation of the complexation behaviour of lipophilic cyclodextrins by electrospray mass spectrometry. J Chem Soc Chem Commun 1993; 693
- Kataky R, Bates P S, Parker D. Functionalised cyclodextrins as potentiometric sensors for onium ions. Analyst 1992; 117: 1313–17
- Masadome T, Wakida W, Kawabata Y, Imato T, Ishibashi N. Contribution of plasticiser to response of surfactant-selective plasticised poly(vinyl chloride) membrane electrode by using ion-selective field effect transistor. Analyt Sci 1992; 8: 89
- Lavandier C D, Pelletier M P, Reinsborough V C. Surfactant inclusions by modified beta-cyclodextrins. Aust J Chem 1991; 44: 457–61
- Satake I, Ikenque T, Takeshita T, Hayakaiou K, Maeda T. Conductometric and potentiometric studies of the association of alpha cyclodextrin with ionic surfactants and their homologs. Bull Chem Soc Jpn 1985; 58: 2746–50
- Saenger W. Cyclodextrin intrusion complexes in research and industry. Angew Chem Int Ed Engl 1980; 19: 344–62
- Bates P S, Kataky R, Parker D. Chiral sensors based on lipophilic cyclodextrins: interrogation of enantioselectivity by combined NMR, structural correlation and electrode response studies. J Chem Soc Perkin Trans 1994; 2: 669