Chromegabond HC C18

Chromegabond HC C18 is a non end capped C18 stationary phase with 22% monomerically bonded carbon. The dense high carbon coverage forms a hydrophobic shield and prevent underlying silica support interactions with solutes.

Chromegabond HC C8

Chromegabond HC C8 is a C8 stationary phase with high % bonded carbon

Chromegabond LS

Chromegabond LS (Lipophilic Separations) has been developed for analysis of lipophilic analytes such as fat-soluble vitamins, fatty acids, aliphatic pharmaceutical, and surfactants. The development of this new stationary phase evolved from our experience with fluorine based stationary phases. Many lipophilic compounds such as fat-soluble vitamins can be analyzed using reversed phase conditions on fluoro-phases.

Chromegabond LS HS

Chromegabond LS HS (Lipophilic Separations High Surface area) has been developed for analysis of lipophilic analytes such as fat-soluble vitamins, fatty acids, aliphatic pharmaceutical, and surfactants. The development of this new stationary phase evolved from our experience with fluorine based stationary phases and high surface area silicas. Many lipophilic compounds such as fat-soluble vitamins can be analyzed using reversed phase conditions on fluoro-phases.

Chromegabond MC CC6

Chromegabond MC CC6 is a Cyclohexyl phase which is endcapped to make it more suitable for polar solutes. Extremely useful for herbicides and other related compounds

Chromegabond MC18

Same as Chromegabond C18 but endcapped to make it more suitable for acids and bases.

Chromegabond MC18 HS

Same as Chromegabond MC18 but with a higher surface area silica.

Chromegabond MC8

Same as Chromegabond C8 but endcapped to make it more suitable for polar solutes.

Chromegabond PFP/T

Chromegabond PFP/T is based on perfluorinated phenyl chemistry bonded to specially treated silica yielding one finest analytical columns for the analysis of Taxol mixtures and Taxol related mixtures.

Chromegabond Phenyl BD

Chromegabond Phenyl BD is a highly base deactivated materail using steric shielding which can be used for moderately polar compounds. Retention characteristics are similar to C8 packing, but with different selectivity for polycyclic aromatic hydrocarbons, polar aromatics and fatty acids.

Chromegabond PSC C8/C18

Chromegabond PSC (pharmaceutical separation column) is prepared by using a mixture of C8 and C18 groups. In addition to this unique bonding arrangement, PSC columns incorporate technology that we have developed which enables us to tightly control the level of residual silanol groups. We utilize this technology to produce PSC columns with a tightly controlled number of residual silanol groups. These columns are able to retain both highly polar and hydrophobic compounds.

Chromegabond RP SAX

Chromegabond RP SAX (Strong Anion Exchange) Columns based on SAX bonding to provide superior, reproducible separations and long column life with excellent peak symmetry. Designed for use in reverse phase chromatography.

Chromegabond TMS (C1)

Chromegabond TMS (C1) is a low-polarity material, separation of mixtures with differing retention.

Chromegabond Triamine RP

Chromegabond Triamine RP columns based on triamine bonding to provide superior, reproducible separations and long column life with excellent peak symmetry. Designed specifically for reverse phase chromatography.

Chromegabond WR C18

Chromegabond WR (Wide Range) is specially deactivated to produce superior peak shapes for amines and acids. Chromegabond WR C18 superior performance is the result of a multistep process beginning with ultra-pure synthetically produced spherical silica. The ultra-pure silica particles are then fully hydroxylated before they undergo an extensive bonding monomeric C18 alkyl chains, using proprietary bonding procedures. The bonded particles are then exhaustively endcapped to react any remaining silanol groups yielding columns that are much more resistant to degradation by acidic and basic mobile phase compositions, while improving peak shapes for amines and acids.

Chromegabond WR C4

Chromegabond WR (Wide Range) is specially deactivated to produce superior peak shapes for amines and acids. Chromegabond WR C4 superior performance is the result of a multistep process beginning with ultra-pure synthetically produced spherical silica. The ultra-pure silica particles are then fully hydroxylated before they undergo an extensive bonding monomeric C4 alkyl chains, using proprietary bonding procedures. The bonded particles are then exhaustively endcapped to react any remaining silanol groups yielding columns that are much more resistant to degradation by acidic and basic mobile phase compositions, while improving peak shapes for amines and acids.

Chromegabond WR C8

Chromegabond WR (Wide Range) is specially deactivated to produce superior peak shapes for amines and acids. Chromegabond WR C8 superior performance is the result of a multistep process beginning with ultra-pure synthetically produced spherical silica. The ultra-pure silica particles are then fully hydroxylated before they undergo an extensive bonding monomeric C8 alkyl chains, using proprietary bonding procedures. The bonded particles are then exhaustively endcapped to react any remaining silanol groups yielding columns that are much more resistant to degradation by acidic and basic mobile phase compositions, while improving peak shapes for amines and acids.

Chromegabond WR Cyano

Chromegabond WR (Wide Range) is specially deactivated to produce superior peak shapes for amines and acids. Chromegabond WR Cyano superior performance is the result of a multistep process beginning with ultra-pure synthetically produced spherical silica. The ultra-pure silica particles are then fully hydroxylated before they undergo an extensive bonding monomeric Cyano groups, using proprietary bonding procedures. The bonded particles are then exhaustively endcapped to react any remaining silanol groups yielding columns that are much more resistant to degradation by acidic and basic mobile phase compositions, while improving peak shapes for amines and acids.

Chromegabond WR Phenyl

Chromegabond WR (Wide Range) is specially deactivated to produce superior peak shapes for amines and acids. Chromegabond WR Phenyl superior performance is the result of a multistep process beginning with ultra-pure synthetically produced spherical silica. The ultra-pure silica particles are then fully hydroxylated before they undergo an extensive bonding monomeric Phenyl groups, using proprietary bonding procedures. The bonded particles are then exhaustively endcapped to react any remaining silanol groups yielding columns that are much more resistant to degradation by acidic and basic mobile phase compositions, while improving peak shapes for amines and acids.