GO-TiO2 as a Highly Performant Photocatalyst Maximized by Proper Parameters Selection

The synthesis and characterization of novel graphene oxide coupled to TiO2 (GO-TiO2) was carried out in order to better understand the performance of this photocatalyst, when compared to well-known TiO2 (P25) from Degussa. Thus, its physical-chemical characterization (FTIR, XRD, N-2 isotherms and electrochemical measurements) describes high porosity, suitable charge and high electron mobility, which enhance pollutant degradation. In addition, the importance of the reactor set up was highlighted, testing the effect of both the irradiated area and distance between lamp and bulb solution. Under optimal conditions, the model drug methylthioninium chloride (MC) was degraded and several parameters were assessed, such as the water matrix and the catalyst reutilization, a possibility given the addition of H2O2. The results in terms of energy consumption compete with those attained for the treatment of this model pollutant, opening a path for further research.

Automated summary

This study carried out the synthesis and characterization of novel graphene oxide coupled to TiO2 (GO-TiO2) to understand its performance as a photocatalyst, comparing it with well-known TiO2 (P25) from Degussa. The physical-chemical characterization showed that GO-TiO2 has high porosity, suitable charge, and high electron mobility, which enhance the degradation of pollutants. The study also highlighted the importance of the reactor set up on the reaction efficiency.