Characterization of the micelle formed by a hydrophobically modified pullulan in aqueous solution: Size exclusion chromatography

Abstract

Size exclusion chromatography equipped with a multi-angle, light-scattering online detec-tor (SEC-MALS) measurements were carried out on a hydrophobically modified pullulan (PUL-OSA) with degrees of substitution (DS) of 0.14, 0.2, and 0.3 in 0.01 M aqueous NaCl to obtain the degree of polymerization (N0 ) dependence of the radius of gyration (〈S2 〉1/2 ) for PUL-OSA in the aqueous NaCl. The result was consistent with the loose flower necklace model proposed in a previous study, and the increase in the chain size with introducing OSA groups was explained by the backbone stiffness of the loose flower necklace formed by PUL-OSA. For PUL-OSA samples with DS = 0.2 and 0.3, 〈S2 〉1/2 obtained by SEC-MALS in a high N0 region deviated downward from 〈S2 〉1/2 expected by the loose flower necklace model. This deviation came from a tiny amount of the aggregating component of PUL-OSA, taking a branched architecture composed of loose flower necklaces. Although the aggregating component of PUL-OSA was also detected by previous small angle X-ray scattering measurements, its conformation was revealed in this study by SEC-MALS.