Starburst dendrimer-supported pseudostationary phases for electrokinetic chromatography

Abstract

Pseudo‐stationary phases for electrokinetic chromatography were prepared by the alkylation of starburst dendrimers (SBDs). The SBD‐supported pseudo‐stationary phase with dodecyl groups showed higher efficiency than short‐akyl derivatives, and maintained the hydrophobic property inthe presence of methanol. The dodecyl‐modified SBD provided wide migration time windows ar high methanol content to effect the separation of sixteen aromatic hydrocarbons, the priority pollutants designated by EPA, in 65% methanol. The selectivity of polymer‐supported pseudo‐stationary phase can be varied simply by changing the length of the alkyl groups. The dodecyl SBD showed relatively similar selectivity as sodium dodecyl culfate micelle, whereas short alkyl derivatives showed preference towards rigid and planar compounds based on the rigid and planar compounds based on the rigid polymer backbones. The selectivity of SBD‐supported pseudo‐stationary phases was dominated by the chain length of the alkyl groups, with the minor effect of the structure of the core and the generation of SBD where alkyl groups were attached.