''Entropically driven'' chiral separations in supercritical fluid chromatography. Confirmation of isoelution temperature and reversal of elution order

Chiral separations depend upon column efficiency and chiral selectivity, Supercritical fluid chromatography (SFC) has been shown to have pronounced advantages in chiral separations due to its enhanced column efficiency at normal now rates, Examination of factors affecting selectivity in SFC is crucial to systematic chiral method development. Selectivity is a compromise between differences in enantiomeric binding enthalpy and disruptive entropic effects, Increased temperature will decrease the effect of differences in enantiomer binding enthalpy, eventually decreasing selectivity to a point where the enantiomers coelute, Extension of this thermodynamic theory predicts that further increases in temperature lead to selectivity values of less than 1.0, and elution order of the enantiomers reverses, In this region separations are said to be ''entropically driven'', and selectivity increases (decreases from 1.0) with temperature, Performing separations in this region is attractive because column efficiency is also expected to increase with temperature, Such entropically driven separations have been observed only in gas chromatography, Most data used to support the application of this theory in SFC have been generated at subcritical temperatures, while theory purports to predict behavior above the critical temperature (T-c). This approach ignores the effects of traversing the critical temperature in SFC, which is known to have a variety of unpredictable consequences, Work presented here shows the effect of temperatures above T-c on chromatographic behavior, Contrary to theory, capacity factors increase near T-c and column efficiency declines, Use of pressures well above the critical pressure lessens these effects, In accordance with theory, selectivity does decrease with temperature through T-c and isoelution temperatures and two instances of elution order reversal are observed here for the first time in SFC.