Development of a 1.0 mm inside diameter temperature-assisted focusing precolumn for use with 2.1 mm inside diameter columns

Abstract

On-column solute focusing is a simple and powerful method to decrease the influence of precolumn band spreading and increase the allowable volume injected increasing sensitivity. It relies on creating conditions so that the retention factor, k’, is transiently increased during the injection process. Both solvent composition and temperature control can be used to effect solute focusing. In the case of temperature, the release of the transiently delayed solute band requires increasing the temperature rapidly and with a minimum of radial thermal gradients. Thus, the focus of attention in temperature-based efforts to carry out on-column focusing has been on capillary columns. As a result, the benefits of this simple and reliable approach, temperature-assisted solute focusing or TASF, are not available to those using larger diameter columns, in particular the highly successful 2.1mm inside diameter columns. Based on considerations of thermal entrance length at the volume flow rates used with 2.1mm inside diameter columns, TASF would not be effective with such columns. However, we determined that the thermal entrance length for a 1.0mm inside diameter precolumn is sufficiently short, about 2mm, that it could work as a precolumn before a 2.1mm inside diameter analytical column. Finite element calculations demonstrate that a 1.0×20mm precolumn packed with 5μm reversed phase particles is effective at a flow rate of 250μL/min, suitable for the 2.1mm inside diameter column. Eight 1-cm2 Peltier devices are used to heat (and cool) the precolumn. The computed axial temperature profile shows that the center of the column heats more rapidly than the ends. Based on the changes in back pressure, the full temperature transient from 5°C (focus) to 80°C (release) takes about 10s.Experimental van Deemter curves indicate that the reduced velocity in the precolumn at 250μL/min flow rate is about 50. Nonetheless, about 1000 theoretical plates are generated. When operating as a precolumn, clear advantages are seen for solutes across a range of modest k’ values (2.2–23.4 at the separation conditions at 65°C) using TASF alone (5°C) with 50μL injection volumes of methyl through n-butyl parabens, and with 100μL injections that also include solvent-based focusing (90:10 aqueous/acetonitrile sample, 80:20 mobile phase).