Electronic columns

Achieve repeatable and consistent liquid chromatography (LC) separations using Thermo Scientific&trade Syncronis&trade C18 columns. Highly pure, high surface area silica and dense stationary phase coverage minimize secondary interactions and

Reliable, less retentive phase Long column lifetimes, even under basic conditions Manufactured under ISO 9001-2000 quality guidelines Affordable Thermo Scientific Hypersil MOS-2 (C8) Columns have a monolayer coverage of C8 alkyl chain chemically

High efficiency and proven reproducibility Exceptionally reliable Separation of a wide range of compounds including nonpolar, moderately polar and lipophilic compounds like triglycerides Thermo Scientific Hypersil ODS (C18) Columns provide an

In reversed phase mode, Hypersil APS-2 columns are excellent for carbohydrate analysis: extra sensitivity for sugars Alternative selectivity to silica when used in normal phase Thermo Scientific Hypersil APS-2 Columns have a versatile amino propyl

Achieve repeatable and consistent liquid chromatography (LC) separations using Thermo Scientific&trade Syncronis&trade C18 columns. Highly pure, high surface area silica and dense stationary phase coverage minimize secondary interactions and

Achieve repeatable and consistent liquid chromatography (LC) separations using Thermo Scientific&trade Syncronis&trade C18 columns. Highly pure, high surface area silica and dense stationary phase coverage minimize secondary interactions and

The Thermo Scientific Hypersil⢠ODS HPLC column is mainly used to separate different kinds of analytes by using HPLC (high pressure liquid chromatography) technique. It is mainly used in research facilities and chemical laboratories."

Reliable, less retentive phase Long column lifetimes, even under basic conditions Manufactured under ISO 9001-2000 quality guidelines Affordable Thermo Scientific Hypersil MOS (C8) Columns have a monolayer coverage of C8 alkyl chain chemically

Restek chemists became the first to combine the speed of superficially porous particles (also known as SPP or &ldquocore-shell&rdquo particles) with the resolution of highly selective USLC technology. This new breed of chromatographic column

Restek chemists became the first to combine the speed of superficially porous particles (also known as SPP or &ldquocore-shell&rdquo particles) with the resolution of highly selective USLC technology. This new breed of chromatographic column

Restek chemists became the first to combine the speed of superficially porous particles (also known as SPP or &ldquocore-shell&rdquo particles) with the resolution of highly selective USLC technology. This new breed of chromatographic column

Restek chemists became the first to combine the speed of superficially porous particles (also known as SPP or &ldquocore-shell&rdquo particles) with the resolution of highly selective USLC technology. This new breed of chromatographic column