Facile synthesis of carbon doped TiO2 nanowires without an external carbon source and their opto-electronic properties

Abstract

The present study demonstrates a simple protocol for the preparation of one dimensional (1D) oxidized titanium carbide nanowires and their opto-electronic properties. The oxidized titanium carbide nanowires (Ox-TiC-NW) are prepared from TiC nanowires (TiC-NW) that are in turn synthesized from micron sized TiC particles using the solvothermal technique. The Ox-TiC-NW is characterized by X-ray diffraction, UV-Vis spectroscopy, transmission electron microscopy (TEM), scanning electron microscopy (SEM) and Raman spectroscopy. Thermal oxidation of TiC-NW yields carbon doped TiO₂-NW (C-TiO₂-NW), a simple methodology to obtain 1D C-TiO₂-NW. Temperature dependent Raman spectra reveal characteristic bands for TiO₂-NW. Electrical characterization of individual C-TiO₂-NW is performed by fabricating a device structure using the focused ion beam deposition technique. The opto-electronic properties of individual C-TiO₂-NW demonstrate visible light activity and the parameters obtained from photoconductivity measurements reveal very good sensitivity. This methodology opens up the possibility of using C-TiO₂-NW in electronic and opto-electronic device applications.