Synthesis, structural and ellipsometric evaluation of V2O5 nanowires

V2O5 nanowires (NWs) were grown on Si (100) and quartz substrates using evaporation–condensation method with the VLS growth technique. The chemical composition of the synthesized nanostructures was analyzed using energy dispersive analysis of X-ray (EDAX). The surface morphology and crystal structure of the synthesized NWs were characterized by scanning electron microscope (SEM) and X-ray diffraction (XRD), respectively. The XRD pattern revealed an orthorhombic symmetry of the deposited NWs while the SEM showed randomly distributed NWs with diameters of 50–200 nm and lengths in the range of 0.8–1.5 μm. The spectroscopic ellipsometry data for V2O5 NWs films were acquired in the wavelength range 400–2100 nm. The thickness and optical constants were obtained from the data fits. The estimated refractive index for V2O5 NWs was found to be 2.24 at λ=626.30 nm. The indirect and direct band gap values were calculated and found to be 2.26±0.02 eV and 2.83±0.02 eV, respectively. The Urbach energy Eu value was 286 meV.

► Metal and metal oxide one dimensional (1D) nanostructured materials are of crucial importance. ► The paper deals with Au catalyst supported growth of V2O5 nanowires and their structural and optical properties. ► The optical constants of V2O5 nanowires are evaluated.