Construction of a novel Z-scheme FeTiO3/MOF-derived In2S3 catalyst for visible-light-driven photo-Fenton degradation of pollutants

The rapid recombination rate of photoexcited carriers for iron titanate (FeTiO3) is still limited the process performance of photo-Fenton. This article reports the successful synthesis of the highly efficient Z-scheme FeTiO3/MOF-derived In2S3 photocatalyst using the hydrothermal method, compensating for the susceptibility of FeTiO3 photo-generated carriers to complexation to a certain extent. A series of characterization have been carried out to explore the structure, morphology and composition of FeTiO3/MOF-derived In2S3 heterostructure. The 0.5 FeTiO3/MOF-derived In2S3 exhibits the excellent photo-Fenton performance for TCH, Cr6+ and OTC, the degradation rate constants (k2) are up to 0.6297 L·mg−1·min−1, 1.332 L·mg−1·min−1, and 0.427 L·mg−1·min−1, respectively. Active species capture experiments and electron paramagnetic resonance (EPR) spectra show that photo-generated holes (h+) and superoxide radicals (·O2-) are present in the photo-Fenton system. The superior photo-Fenton performance is mainly manifested in the following: the MOF-derived In2S3 micro-floral carrier extends the reaction interface of 0.5 FM-I; FeTiO3 effectively enhances the photo-absorption ability of 0.5 FM-I in visible range; the construction of Z-scheme FeTiO3/MOF-derived In2S3, forming the new carriers transport channels and enhancing the generation of ·O2- and ·OH. This experimental exploration provided a reasonable experimental basis for the preparation of efficient photocatalysts. [Display omitted] •The FeTiO3/MOF-derived In2S3 Z-scheme heterostructured photocatalyst has been prepared via the hydrothermal method.•The heterostructured photocatalyst was used to degrade TCH, Cr6+ and OTC for the first time.•The rate constants for TCH, Cr6+ and OTC (0.6279, 1.332 and 0.427 L·mol-1·min-1) were achieved by 0.5 FM-I photocatalyst.•The energy band structure of FeTiO3 and MOF-derived In2S3 leads to the formation of the Z-scheme charge transfer process.•The efficient convert between Fe3+ and Fe2+ ions facilitate the photo-Fenton reaction.