Abstract
To expand the absorption of pure nanosized TiO2 to the visible light range for improving the photocatalytic efficiency necessary for industrial application, the way of doping different transition metals such as Mn, Co and Zr into TiO2 was done by sol-gel synthesis method. The X-ray diffraction studies were identified that the metal doped TiO2 and undoped TiO2 samples have the same tetragonal structure with pure anatase phase. Obviously, the crystallite size is smaller for the doped materials than that of pure TiO2 sample. The characteristic FE-SEM images revealed well distributed spherical shaped particles. The dopant materials induced significant changes in the surface area of TiO2 which was confirmed by Brunauer Emmet Teller method. The absorption edge of doped TiO2 is at a higher wavelength that corresponds to red region, because of the formation of intermediate states in the doped metal ions into TiO2 sites. Moreover, for the photocatalytic degradation of MB and MO dyes, the prepared catalysts were tested under both UV and visible light irradiation. The observation confirms that among all the other samples, Mn doped TiO2 shows amazing photocatalytic performance in visible light due to its smaller crystallite size, large surface area and lower band gap.
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•The doped and bare TiO2 materials prepared by sol-gel method•Intermediate states created by the dopant ions•Intermediate state electrons are excited under visible light.•Mn doped TiO2 exhibit superior visible light activity due to high surface area.