Effect of temperature on the growth of TiO2 thin films synthesized by spray pyrolysis: Structural, compositional and optical properties

Large surface area coatings of oxygen deficient nanocrystalline TiO2 are of immense use in antifogging mirrors and self cleaning windows. Spray pyrolysis is a simple versatile technique to coat relatively large surface area. A clear understanding of effect of substrate temperature on the coating morphology, structure, composition and optical properties is essential to produce coatings of desired properties. Oxygen deficient nanocrystalline anatase–TiO2 thin films were synthesized on Si(1 0 0), quartz and glass substrates at 300–550 °C. Well defined platelets like nanograins standing on their edge were obtained at 500 °C. The crystallites were found to be of ∼12 nm thickness and ∼30 nm major diameter. The secondary ion mass spectrometric studies of the films revealed uniform distribution of titanium and oxygen across the thickness of the film up to the film–substrate interface. Presence of lower valent Ti ions and oxygen vacancies were confirmed from XPS studies. The indirect and direct band gap values evaluated from the Tauc plot for films synthesized at 500 °C are 3.3 and 3.62 eV respectively.

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► Dense anatase–TiO2 coatings were synthesiszed by ultrasonic spray pyrolysis technique.
► Temperature range for the formation of well defined nano-grains were delineated.
► Compositional analysis of the coatings were carried out using XPS.
► Compositional uniformity across coating thickness was confirmed by SIMS.
► Direct and indirect band-gaps were evaluated using UV–Visible spectroscopy.