Synthesis and Characterization of TiO₂ Doped ZnO Microtubes

The TiO₂-doped ZnO microtubes have been successfully fabricated via a wet chemicalmethod, using zinc chloride and titanium sulphate as the starting materials. The as-synthesized products were characterized by X-ray diffraction, field emission scanning electronmicroscopy and room temperature photoluminescence measurement. The photocatalytic ac-tivity in degrading methyl orange was measured with a UV-Vis spectrophotometer. The pure ZnO microtubes exhibit an exact hexangular hollow structure with a diameter of about 700 nm, a length of 3 μm and a wall thickness of about 40 nm. The TiO₂-doped ZnO microtubes with TiO₂/ZnO ratio less than 5% have the same dimension with the pure ZnO microtubes, a smooth column shape, not a hexangular structure. The growth of ZnO may be inhibited by the more Ti⁴⁺ doped into ZnO structure to achieve a small dimension or a multiphase. The crystallinity of ZnO microtubes decreases with increasing TiO₂ content, and then a multiphase containing ZnO, Ti₃O₅ and TiO occur when the TiO₂/ZnO ratio is more than 5%. The UV emission intensity of the TiO₂-doped ZnO obviously increases and then tends to decrease with TiO₂/ZnO ratio increasing. The photocatalytic properties of the TiO₂-doped ZnO microtubes are very effcient in degrading organic dyes of methyl orange and are well identical with its PL properties and the crystallinity.