Back close
Admissions

Development of Natural Biopolymeric Hydrogel Bandages with NanoZnO/ Nanosuspensions of Herb Hemigraphis Ulternata for Wound Dressing

Start Date: Saturday, Jan 01,2011

School: School of Nano Sciences

Project Incharge:Dr. R. Jayakumar
Co-Project Incharge:Dr. Vinod Lakshmanan, Dr. A.G. Unnikrishnan
Funded by:DBT
Development of Natural Biopolymeric Hydrogel Bandages with NanoZnO/ Nanosuspensions of Herb Hemigraphis Ulternata for Wound Dressing

This project proposes to develop novel natural biopolymeric composite hydrogel bandages based alginate, chitin and chitosan with antibacterial Herb Hemigraphis Ulternata/ZnO nanoparticles. This three-year project will involve preparation and characterization of nanostructured hydrogel bandages followed by in-vitro protein adsorption, antibacterial, blood clotting, cell attachment and proliferation.

 Following the invitrostudies, in-vivo studies are proposed to examine wound skin tissue regeneration for medical applications.

Related Projects

Chemical and Biological Food Toxins using Surface Enhanced Raman Scattering (SERS)
Chemical and Biological Food Toxins using Surface Enhanced Raman Scattering (SERS)
Theragnostics, Re-generative Medicine and Stem Cell Using Cell-Targeted Nano-material
Theragnostics, Re-generative Medicine and Stem Cell Using Cell-Targeted Nano-material
Nano Toxicology and Nano Medicine – Phase II
Nano Toxicology and Nano Medicine – Phase II
Identification and Characterization of Anti-Microbial Compounds(s) and Adhesins Produced by Lactobacillus Fermentum (L.fermentum)
Identification and Characterization of Anti-Microbial Compounds(s) and Adhesins Produced by Lactobacillus Fermentum (L.fermentum)
Plasma Surface Modification of Nanostructured Surfaces of Marine Based Scaffolds and Membranes for Enhanced Bioactivity
Plasma Surface Modification of Nanostructured Surfaces of Marine Based Scaffolds and Membranes for Enhanced Bioactivity
Admissions Apply Now