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Kinetex PS C18 Column Performance Study
In this application, we investigated the Kinetex 2.6µm PS C18 HPLC/UHPLC column’s improved chromatographic performance and unique multi-interaction selectivity when applied to a screen of 36 tricyclic antidepressants (TCA). Because the Kinetex 2.6µm core-shell (superficially porous) particle morphology provides ultra-high column efficiency on any HPLC or UHPLC system1, the investigation also included a comparison to a conventual fully porous 1.9µm UHPLC column.
Kinetex PS C18 Column Performance Study
In this application, we investigated the Kinetex 2.6µm PS C18 HPLC/UHPLC column’s improved chromatographic performance and unique multi-interaction selectivity when applied to a screen of 36 tricyclic antidepressants (TCA). Because the Kinetex 2.6µm core-shell (superficially porous) particle morphology provides ultra-high column efficiency on any HPLC or UHPLC system1, the investigation also included a comparison to a conventual fully porous 1.9µm UHPLC column.
Document Type:
Technical Notes
Target Industries:
Techniques:
Brands:
Separation Modes:
Reversed Phase
Kinetex PS C18 Column Performance Study
In this application, we investigated the Kinetex 2.6µm PS C18 HPLC/UHPLC column’s improved chromatographic performance and unique multi-interaction selectivity when applied to a screen of 36 tricyclic antidepressants (TCA). Because the Kinetex 2.6µm core-shell (superficially porous) particle morphology provides ultra-high column efficiency on any HPLC or UHPLC system1, the investigation also included a comparison to a conventual fully porous 1.9µm UHPLC column.
| Target Industries: | Pharmaceutical, Biopharmaceutical Analysis |
| Techniques: | HPLC |
| Brands: | Kinetex |
| Separation Modes: | Reversed Phase |
Phenomenex is a technology leader committed to developing novel analytical chemistry solutions that solve the separation and purification challenges of researchers worldwide.
Phenomenex is a technology leader committed to developing novel analytical chemistry solutions that solve the separation and purification challenges of researchers worldwide.