Effects of pH in reversed-phase liquid chromatography

The effects of concomitant variations in pH and organic modifier concentration on retention, efficiency and peak symmetry are considered for reversed-phase liquid chromatography (RPLC) on octadecyl-modified silica (ODS) columns. A number of factors are discussed, which make the systematic exploitation of pH effects in RPLC more complicated than the optimization of solvent composition. If the pH is varied, a second factor (usually the concentration of organic modifier) will need to be varied simultaneously to maintain retention (capacity factors) in the optimum range. When pH is considered as a parameter in RPLC, not only its effects on retention, but also the variations in efficiency (plate count) and peak shape (asymmetry) need to be considered. These parameters turn out to vary drastically between individual solutes and between different experimental conditions. The results of a study involving a number of acidic, basic and neutral solutes, two different ODS columns and mixtures of either methanol or acetonitrile with aqueous buffers are reported. In the earlier part of the study, using methanol as the organic modifier, reproducible data for retention, peak width and peak symmetry were obtained and these data are reported. In the later part of the study, using acetonitrile, a gradual change in retention as a function of time was observed, this effect coinciding with a decrease in column efficiency. It is concluded that ODS columns are subject to considerable degradation during studies in which the pH is varied. Although this effect can be described mathematically, the preferred solution is thought to be the use of pH-stable columns.