Packed-column hydrodynamic chromatography using 1-μm non-porous silica particles

## Abstract The evolution of chromatography has led to the reduction in the size of the packing materials used to fabricate HPLC columns. The increase in the backpressure required has led to this technique being referred to as ultrahigh‐pressure liquid chromatography (UHPLC) when the column backpre

Octadecyl-modified 1.5 µm diameter non-porous silica particles were packed in 150 µm i.d. (360 µm o.d.) capillaries with lengths of 20 cm which were used to separate proteins and peptides generated from enzymatic digests of proteins. Gradients were produced using an exponential dilution method at pr

## Abstract A recently introduced 2.5 μm fully porous support (Kromasil Eternity) is compared with three different brands of superficially porous material (Kinetex, Halo and Poroshell 120) by means of the kinetic plot method using pharmaceutical compounds from GlaxoSmithKline as probe molecules. Th

## Abstract The potential of high‐speed analyses by rapid resolution liquid chromatography (RRLC) and RRLC/MS on 1.8‐μm porous particles packed into short columns operated at high flow‐rate was investigated and compared with the performance of 5‐μm porous particles packed into conventional columns.