Potentiometric detection of exogenic beta-adrenergic substances in liquid chromatography

Generation of a large number of theoretical plates was attempted by capillary HPLC. Monolithic silica columns having small skeletons (ca. 2 μm) and large through-pores (ca. 8 μm) were prepared by a sol–gel method in a fused-silica capillary (50 μm I.D.), and derivatized to C₁₈ phase by on-column reaction. High external porosity (>80%) and large through-pores resulted in high permeability (K=1.2×10⁻¹² m²). The monolithic silica column in the capillary produced a plate height of about 12 μm in 80% acetonitrile at a linear velocity of 1 mm/s. Separation impedance, E value, was found to be as low as 200, that was about an order of magnitude lower than reported values for conventional columns packed with 5 μm particles. Reproducibility of preparation within ±15% was obtained for column efficiency and for pressure drop. It was possible to generate 100,000 plates by using a 130-cm column at very low pressure (<7 kg/cm²). A considerable decrease in column efficiency was observed at high linear velocity, and for solutes with large retention factors due to the slow mobile-phase mass transfer in the large through-pores. The monolithic silica columns, however, showed performance beyond the limit of conventional particle-packed columns in HPLC under favorable conditions.