Fabrication of mesoporous TiO2/PVDF photocatalytic membranes for efficient photocatalytic degradation of synthetic dyes

Water recovery and reuse are the two best alternatives to assuage the growing water scarcity. Mixed matrix membranes (MMMs) incorporated with heterogeneous photocatalysts have been proven to be efficient in the degradation of toxic organic compounds, particularly dyes. In this study, a mesoporous photocatalyst, titanium dioxide, was prepared using two different routes: (1) Solution combustion synthesis using different organic fuels such as (TiO2-U), (TiO2-G), (TiO2-A), (TiO2-H), and (TiO2-HM); (2) Modified hydrothermal method using an abundantly available polysaccharide starch (TiO2-S). These photocatalysts were exhaustively characterized to study their physicochemical and structural properties using XRD, UV-DRS, FT-Raman, BET, PL Spectra, XPS, HR-SEM, HR-TEM and EDX. The mesoporous TiO2 nanoparticles incorporated mixed matrix PVDF membranes were synthesized by the facile non-solvent induced phase separation technique. The photocatalytic activity of the synthesized catalysts and the MMMs were evaluated using two different dyes such as Congo Red (CR) and Reactive Yellow 145 (RY 145). As far as the catalyst embedded membranes are concerned, they also show a similar trend but slightly reduced photocatalytic activity. Among the MMMs, TiO2-S/PVDF showed higher photocatalytic activity. The percentage decolourization/mineralization of CR and RY 145 over were determined to be 84%/71% and 100%/87% respectively. Kinetic studies revealed that among the synthesized catalysts, TiO2-S/PVDF showed the highest k(app) and the lowest t(1/2) values - CR - 0.0061 min(-1) and 113 min; RY 145 - 0.0134 min(-1) and 51.71 min. The PVDF MMMs were also found to be thermally stable with excellent recyclability and long-term activity.

Automated summary

In this study, mesoporous titanium dioxide photocatalysts were synthesized using different methods and incorporated into PVDF membranes to evaluate their photocatalytic activity. Among the synthesized catalysts, TiO2-S/PVDF showed the highest activity.