Tantalum oxynitride films were created by direct nitridation/oxidation during rapid thermal annealing at temperatures 450–700°C. Instead of during deposition, this post process may be proved to be an alternative way to make transition metallic oxynitride films. With sufficient supply of oxygen flow (≥30sccm), TaO x N y was formed as examined from X-ray diffraction (XRD) analysis. This oxynitride film has a broad optical absorption over the range of visible light and sufficient photocatalytic function. For optical absorption, the films' transmittance and reflectance were measured by a UV–VIS–NIR spectrophotometer with wavelengths ranging from 300 to 900nm. The broad visible light absorption is associated with the formation of band gap in TaO x N y film, which was examined by the theoretical calculations combining the Beer–Lambert law and Tauc formula. Lastly, the photocatalysis of TaO x N y was gauged by the photodegradation test which measured the reduction of light absorbance affected by the decomposition of methylene blue (C 16 H 18 N 3 SCl.3H 2 O) on TaO x N y under visible light irradiation.