Preparation and characterization of chitosan films, crosslinked with symmetric aromatic dianhydrides to achieve enhanced thermal properties
Kandile, Nadia; Iman Kavianinia; David R. Harding; Paul G. Plieger;
Abstract
This study has developed a new generation of crosslinked chitosan-based films using symmetric aromatic dianhydrides
as crosslinking agents. The formation of the dianhydride-crosslinked chitosan hydrogel films was confirmed using Fourier
transform infrared and solid-state 13C NMR spectral analyses. The films obtained from these derivatives were characterized by
their thermal, swelling and hydrophilic properties. The results showed that introducing a cyclic imide moiety into the chitosan
matrices played a significant role in enhancing the thermal properties of these chitosan films. It was found that even at high
levels of substitution, thermal stability of the studied chitosan derivatives was improved, in spite of a reduction in crystallinity.
Heterocyclic imide linkages produced networks that were insoluble in both acidic and alkaline media but allowed swelling in
aqueous media. An increase in the hydrophobicity of the chitosan film surfaces was observed after introduction of the cyclic
imide moiety. These engineered films produced noteworthy results concerning their thermal and swelling properties. There is a
need to further investigate these films for drug delivery and biomaterials applications.
as crosslinking agents. The formation of the dianhydride-crosslinked chitosan hydrogel films was confirmed using Fourier
transform infrared and solid-state 13C NMR spectral analyses. The films obtained from these derivatives were characterized by
their thermal, swelling and hydrophilic properties. The results showed that introducing a cyclic imide moiety into the chitosan
matrices played a significant role in enhancing the thermal properties of these chitosan films. It was found that even at high
levels of substitution, thermal stability of the studied chitosan derivatives was improved, in spite of a reduction in crystallinity.
Heterocyclic imide linkages produced networks that were insoluble in both acidic and alkaline media but allowed swelling in
aqueous media. An increase in the hydrophobicity of the chitosan film surfaces was observed after introduction of the cyclic
imide moiety. These engineered films produced noteworthy results concerning their thermal and swelling properties. There is a
need to further investigate these films for drug delivery and biomaterials applications.
Other data
| Title | Preparation and characterization of chitosan films, crosslinked with symmetric aromatic dianhydrides to achieve enhanced thermal properties | Authors | Kandile, Nadia ; Iman Kavianinia; David R. Harding; Paul G. Plieger | Keywords | chitosan films;crosslinked;aromatic dianhydrides;thermogravimetric analysis | Issue Date | 2014 | Publisher | Wiley Online Library | Journal | Polym Int | Volume | 64 | Start page | 556 | End page | 562 | DOI | 10.1002/pi.4835 |
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