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Separation of enantiomers on chiral stationary phase based on chicken α₁-acid glycoprotein: effect of silica particle diameters on column performance.

Journal of chromatography. A (2014-07-22)
Hisami Matsunaga, Jun Haginaka
RESUMO

The effects of silica particle diameters on performances of chicken α₁-acid glycoprotein (c-AGP)-immobilized silica particle columns were investigated. c-AGP was immobilized onto aminopropyl silica particles, whose nominal particle diameters were 5, 3 and 2.1 μm, activated with N,N'-disuccinimidyl carbonate. The retention factor (k), enantioseparation factor (α), resolution (Rs) and height equivalent to a theoretical plate (H) of solutes on three c-AGP columns were evaluated using a mixture of phosphate buffer and organic modifier as a mobile phase in LC. There were not so much differences in their k and α values among three c-AGP columns, while their Rs values were in the order of 2.1 μm>3 μm>5 μm silica particles and their H values were in the reversed order. Since three c-AGP columns gave almost the same enantioseparation factors for solutes, their highest Rs and lowest H values on a c-AGP-immobilized column prepared with 2.1-μm silica particles came from its highest column efficiency among there c-AGP columns. These results suggest that 2.1-μm silica particles could be useful for the preparation of c-AGP- or protein-based CSPs.

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