Abstract
In this contribution we introduce phase-optimized columns for highly efficient liquid chromatographic separations in microfluidic glass chips. In phase-optimized liquid chromatography the selectivity and geometry of the stationary phase are precisely adjusted to provide an optimal separation of a mixture of interest. The separation of nine polycyclic aromatic hydrocarbons under reversed-phase conditions was investigated. Standard HPLC was utilized to explore the retention parameters of each analyte on a set of five commercially available stationary phases. From these experiments the properties of an optimal on-chip column were calculated assuming a zero-void-volume performance for the chip chromatography. A phase-optimized on-chip column only 30 mm long provided baseline resolution of all signals within 4 min. The separation performance of a chip column comprising various stationary phases can be precisely predicted by a set of traditional HPLC experiments. The approach has great potential for the directed development of tailor-made chromatography chips for specific applications.
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