biopolymers-meeting-2017-posters-accepted-abstracts

Volume 3, Issue 4 (Suppl)

Polym Sci

ISSN: 2471-9935 Polym Sci, an open access journal

October 12-13, 2017 Osaka, Japan

Annual Meeting on

Biopolymers and Drug Delivery Systems

Biopolymers Meeting 2017

October 12-13 2017

Page 67

Polym Sci 2017, 3:4

DOI: 10.4172/2471-9935-C1-006

Chitosan hydrogel based nanocomposite system with self-healing ability: Films and patches

Achyut Konwar and Devasish Chowdhury

Institute of Advanced Study in Science and Technology, India

Introduction & Aim:

Bio-polymeric hydrogel system prepared from chitosan cross-linked with glycerol possesses the self-healing

ability, which enables this fantastic hydrogel material to form smooth films or coating. By successful utilization of this self-healing

ability possessed by this hydrogel material we have fabricated different types of nanocomposite hybrid biomaterials.

Methods:

In the first approach chitosan nanocomposite hydrogel was fabricated by using Carbon dots (CDs) synthesized from

commercially available Assam CTC tea. Then a composite nanomaterial was also synthesized by coating the surface of graphene oxide

by the iron oxide nanoparticle and this composite nanomaterial was used to fabricate chitosan-iron oxide coated graphene oxide

nanocomposite hydrogel films. This chitosan based hydrogel system was also used to fabricate a kind of super absorbent patch using

cotton wool. We also modified the patch by incorporating graphene oxide (GO) into this hydrogel system. The films and the patches

were fabricated by gel casting technique and by the compression molding technique, respectively.

Results & Conclusion:

The films obtained from chitosan-CDs nanocomposite hydrogel system showed UV-blocking ability along

with the improved mechanical and thermal property. Chitosan-iron oxide coated graphene oxide nanocomposite hydrogel films are

robust along with another interesting property, the antimicrobial activity. Cotton based patches after loading GO showed antimicrobial

activity as well as efficient wound healing ability when tested in animal model and thus can serve as a bandage material. The main

advantage of such patches is that any type of chemicals, drugs, nano or micro particles can be loaded in it as per requirement. Since

chitosan is a bio-polymer having the inherent property of biodegradability and biocompatibility, so such type of films and patches

fabricated from chitosan based hydrogel system may find high potential application in the bio-medical as well as food packaging

industry. The patches may have application in the textile industry as well.