Abstract
Cinnamoyl alginate microspheres were prepared using the water droplets of W/O emulsions as a template. Cinnamoyl alginates having variable content of the cinnamoyl group were prepared by a condensation reaction. The photo-dimerization degree of the cinnamoyl group increased as the molar ratio of pyranose unit/cinnamoyl group increased from 1:0.043 to 1:0.18. The air/water interfacial activity of cinnamoyl alginate also increased with increasing the molar ratio. Aqueous solution of cinnamoyl alginate was dispersed in mineral oil to obtain W/O emulsion. UV light (254 nm, 6 W) was irradiated to the emulsion to dimerize the cinnamoyl groups, and CaCl2 was added to the emulsion to cross-link the cinnamoyl alginate. The surface of UV-treated microspheres was rougher than that of UV-untreated microspheres, possibly due to the photo-dimerization-induced tension on the alginate chains. The release degrees for 24 hours of fluorescein isothiocyanate-dextran (FITC-dextran; MW 4000) from UV-treated microspheres were markedly higher than those from UV-untreated ones. This is possibly due to the intramolecular dimerization of cinnamoyl group. The UV irradiation-induced percentage increase in the maximum release degree was greater as the content of cinnamoyl group was higher.
Notes
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