Fused silica capillary micro-packed columns for gas chromatography

The life expectancy and resistance to flow, pressure shocks, solvent gradients, and bending of packed fused silica capillary columns (Micro-LC) are discussed. ## 2 Instrumentation Chromatographic measurements were carried out on a Varian 5020 (Varian Associates, Walnut Creek, CA, USA) and on a Per

## Abstract Different polymer‐coated stationary phases have been evaluated in micro‐LC: Nucleosil‐100‐5‐C1‐PMSC18 (C~18~‐substituted polymethylsiloxane, C~1~‐deactivated with trimethylsilylenolate) and Nucleosil‐100‐5‐C1‐PMSCN (cyanopropyl‐substituted polymethylsiloxane, C~1~‐deactivated) in the re

Porous ceramic bed supports for fused silica packed capillary columns utilized in liquid chromatography were prepared by polymerizing solutions containing potassium silicate in-situ within a column to create a mechanically stable, rugged, and easily constructed termination. The effect of the bed sup

## Abstract A dry‐packing method has been developed which enables the preparation of packed capillary columns for micro HPLC from 250 μm i.d. tubing and 5 μm packing materials. Pressurized gases, such as hydrogen and argon, were used to transport the packing media, and ethanol or methanol were used