Litcius/Paper detail

C-Term Reduction in 3 μm Open-Tubular High-Aspect-Ratio Channels in AC-EOF Vortex Chromatography Operation

Eiko Y. Westerbeek, Pierre Gelin, Wouter Olthuis, Jan C. T. Eijkel, Wim De Malsche

2023Analytical Chemistry12 citationsDOIOpen Access PDF

Abstract

The performance of liquid chromatography operation in open-tubular channels, the ideal chromatographic column format, is limited by slow mass transport between the mobile and stationary phase. We recently introduced a lateral mixing methodology (“vortex chromatography”) to reduce Taylor–Aris dispersion by employing (small) AC-EOF (alternating current electroosmotic flow) fields oriented perpendicular to the conventionally applied, axially oriented pressure gradient, resulting in the reduction of the C-term by a factor of 3, studied in 40 × 20 μm 2 (aspect ratio (AR) = 2) channels under unretained conditions. In the present contribution, a further increased performance gain for channel dimensions relevant for chromatographic applications is demonstrated. The impact of the applied voltage and salt concentration is studied for 3 × 20 and 5 × 20 μm 2 channels in ARs of up to 6.7, revealing a C-term reduction potential of a factor of up to 5 for large molecules (dextran) under unretained conditions. The decrease in κ aris in a 5 μm channel (reduction of 80%) was larger than the decrease in a 3 μm channel (reduction of 44%).

Topics & Concepts

ChemistryChromatographyVortexAnalytical Chemistry (journal)Reduction (mathematics)PerpendicularMechanicsGeometryPhysicsMathematicsMicrofluidic and Capillary Electrophoresis ApplicationsAnalytical Chemistry and ChromatographyInnovative Microfluidic and Catalytic Techniques Innovation