Thiol-ene photo-click immobilization of a chiral chromatographic ligand on silica particles

Abstract

This work reports procedures for the immobilization of vinyl ligands on silica particles by UV-initiated thiol-ene radical addition reaction (photo-click immobilization). tert‑Butylcarbamoyl quinine was the functional ligand (ene component) for the synthesis of chiral stationary phases. Two distinct surface chemistries were evaluated. In one approach, the ligand was directly attached to 3-mercaptopropyl-silica triggered by radicals generated by UV irradiation from a photoinitiator. In another approach, the ligand was immobilized onto vinyl silica via poly(3-mercaptopropyl-methylsiloxane) (PMPMS) as crosslinker by a photoinitiated double click reaction in which functionalization with chiral ligand and crosslinking to vinylsilica occurred simultaneously in one synthesis step. PMPMS-bonded CSPs were prepared from suspension (slurry method) or solventless after coating of the polythiol onto the vinylsilica surface (film method). Optimization by a design of experiment approach showed that the reaction time is the prime variable to optimize the surface coverage of chiral selector which also increased with PMPMS concentration. When the film formation of the latter approach was assisted by a minute volume of toluene during photo-click immobilization, selector coverage could be significantly increased to 0.73 µmol/m2 in a 2 h synthesis compared to 0.44 µmol/m2 by the solventless film method and 0.47 µmol/m2 by the slurry method under otherwise comparable conditions. The solvent assistance improved the chromatographic efficiency of the film method and resulted equal minimal reduced plate height of 2.6 as the slurry method for a chiral probe (Fmoc-Phe). The mass transfer resistance was around factor 2 smaller with the solvent-assisted film method as compared to the film approach without toluene, presumably due to a more homogenous distribution of the thin polymer film owing to lower dynamic viscosity in presence of toluene.