SYSTEMATIC-APPROACH TO THE TREATMENT OF ENANTIOMERIC SEPARATIONS IN CAPILLARY ELECTROPHORESIS AND LIQUID-CHROMATOGRAPHY .3. A BINDING CONSTANT-RETENTION FACTOR RELATIONSHIP AND EFFECTS OF ACETONITRILE ON THE CHIRAL SEPARATION OF TIOCONAZOLE
Pd. Ferguson et al., SYSTEMATIC-APPROACH TO THE TREATMENT OF ENANTIOMERIC SEPARATIONS IN CAPILLARY ELECTROPHORESIS AND LIQUID-CHROMATOGRAPHY .3. A BINDING CONSTANT-RETENTION FACTOR RELATIONSHIP AND EFFECTS OF ACETONITRILE ON THE CHIRAL SEPARATION OF TIOCONAZOLE, Journal of chromatography, 745(1-2), 1996, pp. 25-35
Citations number
36
Categorie Soggetti
Chemistry Analytical","Biochemical Research Methods
In previous chiral CE work on the separation of tioconazole enantiomer
s by P-cyclodextrin, the mode of action of alcohols as organic modifie
rs has been elucidated. Using acetonitrile, an increase in the organic
modifier concentration in the range 0-15% (v/v) is found to cause twi
ce the decrease in the value of the host-guest binding constant in com
parison to methanol. With both modifiers, the selectivity (alpha=1.23)
is the same across the full solvent composition range, consistent wit
h action via alteration in solvent affinity for the free analyte. A un
ified treatment linking binding constants in CE and retention (capacit
y) factors in LC is developed for the case where 1:1 binding between s
elector and analyte occurs. This is parameterised for cyclodextrins as
mobile phase additives in CE and chiral stationary phase selectors in
LC. Reasonable agreement is found between the observed and calculated
relationship between LC and CE results for tioconazole binding to bet
a-cyclodextrin in water-organic cosolvent mixtures. This suggests that
CE may be used for the optimization of the same separation in LC, all
owing method development time in LC to be substantially decreased usin
g data gathered in CE experiments.