Results from solvophobic theory applied to methylene selectivity in reversed-phase HPLC

摘要

A significant amount of work has been previously dedicated to the understanding of methylene selectivity parameter. The conventional theory applied for this understanding was mostly based on the assumption that the difference in the Gibbs free energy of transfer from the mobile phase to the stationary phase is a constant for any two compounds in a homologous series that differ by a CH2 group. In the present study, it is shown based on solvophobic theory that this assumption is indeed correct, but it provides a theoretical justification for it. Exemplification of the results of theory was obtained using the values for methylene selectivity (?CH2)) measured experimentally for seven different C18 chromatographic columns including two coreshell columns and using water and either methanol or acetonitrile as an organic component. Four different homologous series of compounds were used for evaluation. The study proved the theoretical prediction that the values for ?CH2) obtained using different homologous series of compounds are only slightly different from those obtained using the toluenebutylbenzene series. Even using different homologous series, the same type of information regarding the columns comparison, and the changes in log ?CH2) with the solvent composition was obtained.