The most obvious difference of packed column supercritical fluid chromatography (pSFC) from HPLC is the use of CO(2) with an elevated column back pressure. However, how back pressure affects SFC separations using methanol/CO(2) binary mobile phase has neither been thoroughly studied experimentally, nor well understood in theory. We studied the effects of back pressure for the most widely applied SFC enantiomeric separation. The impacts of back pressure on dead time (t(0)), solute retention (k), selectivity (α), efficiency (N) and resolution (R(s)) were studied on 10 chiral columns using 11 pairs of drug-like enantiomers covering the common retention time range using the mobile phase of 20/80 methanol/CO(2). Increased apparent t(0) was observed at an increased column back pressure. Careful analysis of the experimental data indicated that t(0) depends not only on the relative density change along the column length, but also on the adsorption of modifier (methanol) onto the stationary phase. The measured k over pressure was found to follow a linear relationship. Moreover, a linear correlation was derived between the k and the rate of retention change with pressure, dk/dP. The resulting empirical equation not only is universally applicable for all 10 tested columns, but also successfully explains the constant selectivity observed with column back pressure changing from 100 to 200 bar under the mobile phase condition. The observed slight efficiency loss due to pressure increase was found to be statistically significant. The combined effects of pressure from all the SFC attributes (t(0), k, α and N) on resolution were confirmed by the experimental results from 48 enantiomeric resolutions. As the column back pressure increased from 100 to 200 bar, resolution decreased only slightly, on average 6%, due mainly to the retention and efficiency decrease. The importance and possible application of our study results will also be discussed.
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