We present the synthesis and characterization of thin film heterojunction, or bi-catalyst, comprising of photocatalytic coatings based on a combination of two different materials exhibiting p-type and n-type conductivity, respectively. Here we show results for the combination of CuOx together with zinc oxide (ZnO) and tungsten oxide (WO3). The purpose of such compounds is to create an intrinsic electrical field at the np-junction that helps to separate electron-hole pairs formed upon interband photon absorption. At the same time desired photochemical properties implies that the constituent catalysts have appropriate bandgap and band edge position. For this purpose, CuOx/WO3 compound films have been prepared onto glass substrates by co-sputtering of tungsten and copper targets in an argon and oxygen atmosphere. CuOx/ZnO bi-catalyst have also been prepared on glass substrates by a two-step process consisting of deposition of CuOx by reactive magnetron sputtering, followed by the ap plication of ZnO particles by drop coating. The obtained bi-catalyst have been characterized by SEM, XRD, XPS, Raman and spectrophotometry. Finally, the photocatalytic activity of the different compound films is assessed by studying their photobleaching rate of methylene blue and orange II in water solution.