A macrocyclic glycopeptide antibiotic containing a hydrophobic "tail" is covalently attached to silica gel via linkage chains. This material is extensively evaluated as a chiral stationary phase (CSP) for HPLC. The relevant structural features of the teicoplanin molecule which make it an effective chiral selector are discussed. The teicoplanin CSP appears to have excellent enantioselectivity for native amino acids, peptides, a-hydroxycarboxylic acids, and a variety of neutral analytes including cyclic amides and amines. Enantioseparations can be achieved in the reversed phase, normal phase, and "polar-organic" modes. This chiral selector is stable and the integrity of the CSP is excellent in all separation modes. Hence it can be considered a highly effective multimodal column. Optimization of these separations is discussed in terms of both selectivity and efficiency. Results indicate that the surface loading of the chiral selector affects all relevant separation parameters. A hypothesis is proposed to explain the enhanced efficiency obtained when using teicoplanin CSPs with higher surface coverage. It appears that teicoplanin is a widely applicable, highly effective chiral selector for HPLC enantioseparations.o 1995 Wiey-Liss, h c .
SYNOPSISA specially designed gas chromatography-mass spectrometry ( GC-MS) analytical method has been developed and applied to identify the source of free radicals that served as initiators in a new ultrasonically induced emulsion polymerization system with monomer methyl mathacrylate (MMA) , surfactant sodium dodecyisulfate (SDS) and water. The results showed the radicals came from the dissociation of SDS under ultrasonic irradiation. A quantitative determination procedure has been also developed and utilized to investigate the effects of the polymerization parameters, such as the surfactant concentration, the acoustic intensity of ultrasound, and the argon flow rate on the concentration of the generated free radicals in the emulsion system under ultrasonic irradiation. The results were helpful to understand the mechanism and kinetics of the system.
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