Abstract
Carbon doped titania nanotubes were prepared by anodization of titanium in a fluoride containing ethylene glycol based electrolyte. Anatase crystallization temperature of the nanotubes varied with respect to anodization voltage. A detailed characterization study and mechanistic analysis of formation and stability of anatase phase of the nanotubes is reported. The findings suggest useful heat treatment parameters for obtaining pure anatase phases of the carbon doped titania nanotubes synthesized by anodization at 40 and 60 V.
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