The immobilization of cellulose 3,5-dimethylphenyl carbamate and amylose 3,5-dimethylphenyl carbamate on silica gel carrier was achieved by using photochemical and thermal processes. Both approaches provide an easy access to materials which were applied as chiral stationary phases (CSPs) for the chromatographic resolution of racemic molecules. The influence of parameters such as irradiation time and solvent on immobilization effectiveness was investigated. For the thermal processes, azo-bis-isobutyrontrile and di-tert-butyl peroxide were evaluated as radical initiators. The influence of parameters such as amount of radical initiator, solvent, temperature, and further handling operations on the immobilization rate was examined. The chiral recognition ability and the overall performance of the prepared immobilized phases were evaluated by injection of a series of racemic compounds onto packed HPLC columns. As there is almost no limitation of organic solvent types that can be used as mobile phases with the immobilized CSPs, they can be applied under chromatographic conditions which are prohibited with the corresponding non-bonded CSPs. This extended applicability considerably broadens the options for improving enantioselectivity and resolving chiral compounds which are not or only poorly soluble in the conventional mobile phases.
Keywords: amylose; cellulose; chiral stationary phase; enantiomers; enantioselective chromatography; immobilized polysaccharide derivatives; photochemistry; racemate; radical initiator.
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