Reequilibration time of superficially porous silica based columns in gradient elution reversed phase liquid chromatography.

Between repetitive analyses using gradient elution liquid chromatography the column must be reequilibrated to the initial conditions, extending run times. We studied the reequilibration time of three superficially porous silica columns compared to one fully porous silica column on a chromatograph with a reduced flush-out volume. Post-gradient acetone injections made at the interface of the pure organic-highly aqueous phase show anomalous, pressure-related band focusing, and increased retention compared to injections on either side of the interface. These anomalies are explained by applying the Buckley-Leverett theory of oil displacement in sands to column reequilibration. Reequilibration was shown to occur quickly, with less than three column volumes of conditioning solvent, and depends on the reproducibility as required by the application. Offline LC-GC was used to quantitate the percent acetonitrile eluting from each column post-gradient. After an initial, large expulsion of acetonitrile, a steady small amount (∼0.03%) of acetonitrile is detected long after the column is considered equilibrated. The limiting variable with column equilibration is not the desorption of organic modifier from the stationary phase, but rather the pressure required to force the aqueous phase into the pores.