Abstract:
This paper demonstrates the preparation of rutile nanotitania using low cost bio-capping strategies. It
was characterized for its particle size, zeta potential, photo-physical properties such as UVeVis absorption
and emission, crystalline phase by XRD, surface area by BET analysis, morphology by SEM and
TEM. Results revealed the formation of nanocubes of rutile titania having band gap of ~2.5 eV. Photocatalytic
efficiency of nanotitania was envisaged by conducting visible light induced photodegradation of
methylene blue (MB). Superior visible light photodegradation efficiency exhibited by nanotitania is
attributed to the photo-catalytic and photo-sensitized oxidation mechanisms. From the various results, a
plausible mechanism for the superior photodegradation efficiency exhibited by nanotitania is suggested.
Total organic carbon (TOC) analysis further supported the photodegradation of MB.
