Abstract
The wettability of TiO2 nanotube arrays (TiO2-NTAs) synthesized by electrochemical anodization was intensively investigated. It was found that annealing temperature of TiO2-NTAs has significant effect on the hydrophilicity of TiO2-NTAs. With the increase of annealing temperature, the fluorine element content on TiO2-NTAs surface decreases, which results in decrease in water contact angle and increase in hydrophilicity for TiO2-NTAs. The reason is that F− ions escape from the lattice and oxygen vacancies are created at the two coordinated oxygen bridging sites at TiO2-NTAs surface after annealing in argon atmosphere. And these defects can in turn increase the affinity for hydroxyl ions formed by dissociation of chemisorbed water molecules and thereby form hydrophilic domains. In addition, TiO2 crystal becomes well organized gradually with the increase of annealing temperature, F− ions are not favored to exist in the lattice and thus escape from the lattice. Less F element content results in better hydrophilicity of TiO2-NTAs.
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