The structure of chem.-crosslinked chitosan and chitosan-poly(vinylpyrrolidone) (PVP) hydrogels is investigated by the combined use of small-angle neutron scattering (SANS), ESR spectroscopy (EPR), intradiffusion, and swelling degree measurements. These hydrogels may be described in terms of an inhomogeneous structure composed by polymer-rich and polymer-poor regions. The polymer-rich regions, whose correlation distance is ranged between .apprx.600 and .apprx.850 .ANG., are, in turn, characterized by the presence of a network formed by the chem. crosslinks, with a mean correlation distance 90 .ANG.. The structures of chitosan and chitosan-PVP hydrogels were also analyzed in the presence of sodium decylsulfate micelles that could provide a multidomain system useful, in principle, for drug delivery applications. Both SANS and EPR measurements show that sodium decylsulfate micelles do not significantly interact with both the gels. Finally, intradiffusion and swelling degree measurements show an improved hydrophilicity of chitosan-PVP gels, even further magnified by the presence of C10OS surfactant.
Physico-chemical and structural properties of hydrogels formed by chitosan, in the presence and absence of poly(vinylpyrrolidone) and sodium decylsulfate / Mangiapia, Gaetano; H., Frielinghaus; D'Errico, Gerardino; Ortona, ORNELLA GIUSTINA; Sartorio, Roberto; Paduano, Luigi. - In: PHYSICAL CHEMISTRY CHEMICAL PHYSICS. - ISSN 1463-9076. - STAMPA. - 9:46(2007), pp. 6150-6158. [10.1039/b710143k]
Physico-chemical and structural properties of hydrogels formed by chitosan, in the presence and absence of poly(vinylpyrrolidone) and sodium decylsulfate.
MANGIAPIA, GAETANO;D'ERRICO, GERARDINO;ORTONA, ORNELLA GIUSTINA;SARTORIO, ROBERTO;PADUANO, LUIGI
2007
Abstract
The structure of chem.-crosslinked chitosan and chitosan-poly(vinylpyrrolidone) (PVP) hydrogels is investigated by the combined use of small-angle neutron scattering (SANS), ESR spectroscopy (EPR), intradiffusion, and swelling degree measurements. These hydrogels may be described in terms of an inhomogeneous structure composed by polymer-rich and polymer-poor regions. The polymer-rich regions, whose correlation distance is ranged between .apprx.600 and .apprx.850 .ANG., are, in turn, characterized by the presence of a network formed by the chem. crosslinks, with a mean correlation distance 90 .ANG.. The structures of chitosan and chitosan-PVP hydrogels were also analyzed in the presence of sodium decylsulfate micelles that could provide a multidomain system useful, in principle, for drug delivery applications. Both SANS and EPR measurements show that sodium decylsulfate micelles do not significantly interact with both the gels. Finally, intradiffusion and swelling degree measurements show an improved hydrophilicity of chitosan-PVP gels, even further magnified by the presence of C10OS surfactant.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.