Hamilton PRP-X300 columns offer an easy, rapid way to separate closely related alcohols and organic acids. The sulfonated poly(styrene-divinyl
benzene) support separates samples via a mixed mode mechanism. Separation on the PRP-X300 is accomplished by three modes:
Hydrogen Bonding—The attraction and retention of sample compounds by the negatively charged sulfonate group.
Reversed-Phase—The interaction and retention of the sample compounds by the non-polar polymeric support.
Ion Exclusion—The process in which ionized samples are excluded from the pores of the support and elute first, while the weakly ionized and nonionic compounds elute later.
Hamilton PRP-X300 columns offer an easy, rapid way to separate closely related alcohols and organic acids. The sulfonated poly(styrene-divinylbenzene) support separates samples via a mixed mode mechanism. Separation on the PRP-X300 is accomplished by three modes:
- Hydrogen Bonding—The attraction and retention of sample compounds by the negatively charged sulfonate group.
- Reversed-Phase—The interaction and retention of the sample compounds by the non-polar polymeric support.
- Ion Exclusion—The process in which ionized samples are excluded from the pores of the support and elute first, while the weakly ionized and nonionic compounds elute later.