Application of photocatalytic ozonation with a WO3/TiO2 catalyst for PFAS removal under UVA/visible light

This research evaluates photocatalytic ozonation for removing 5 PFAS (PFOA/PFHxS/PFBS/6:2 FTS/GenX) from water using a WO3/TiO2 catalyst under UVA-visible radiation. Four catalysts of varying WO3 content (0/1/3/5 wt %) were synthesized by sol-gel and characterized by XRD, TEM, STEM-EDS, HAADF-STEM, adsorption/desorption N2 isotherms, and DRS-UV-vis. 5 wt% WO3/TiO2 was the optimal composition based on physicochemical properties and photocatalytic activity tests with methylene blue. PFAS degradation showed that photocatalytic ozonation inefficiently degraded PFAS with WO3/TiO2 under UVA-visible light after 4 h (sigma PFAS removal 16 %, [range 4 %-26 %]). Photocatalysis had comparable removal to photocatalytic ozonation, photolysis and ozone photolysis showed lower removal, and ozonation had no effect. Microtox analysis showed the initial acute toxicity was no longer detectable after photocatalysis and photocatalytic ozonation treatment. Low PFAS removals under tested conditions require that future work evaluate different catalysts or treatment conditions, while disparities between tested PFAS removals demonstrate the need to evaluate multiple compounds. Environmental implication: The research presented in this manuscript involves the preparation and characterization of WO3/TiO2 catalysts used, for the first time, to remove multiple PFAS in water via photocatalytic ozonation. This manuscript supports the development of a catalytic process for the elimination of hard to degrade environmental pollutants, provides new knowledge on aspects of photocatalytic processes, and provides insights on environmental pollution abatement.

Automated summary

This research evaluates the performance of photocatalytic ozonation for removing 5 PFAS from water using a WO3/TiO2 catalyst and UVA-visible radiation. The results show that photocatalytic ozonation has low efficiency in degrading PFAS, highlighting the need for further evaluation of different catalysts or treatment conditions.