Photocatalytic degradation of sulfamethoxazole using TiO2-based materials - Perspectives for the development of a sustainable water treatment technology

Heterogeneous photocatalysis using titanium dioxide-based materials is considered a promising and innovative solution to the water pollution problem. However, due to the limitations concerning the use of the developed materials and the applied photodegradation conditions, the research on photoremediation using TiO2 often stays behind the lab door. The challenge is to convert the basic research into a successful innovation, leading to the implementation of this process into wastewater treatment. For this purpose, the most active materials and optimal photodegradation conditions must be chosen. This article collects and compares the studies on photocatalytic degradation of an emerging pollutant - sulfamethoxazole, an antibacterial drug - and attempts to find the best approaches to be successfully applied on an industrial scale. Various types of TiO2-based photocatalysts are compared, including different nanoforms, doped or polymer-based composites, composites with graphene, activated carbon, dyes or natural compounds, as well as possible supporting materials for TiO2. The paper covers the impact of the irradiation source (natural sunlight, LED, mercury or xenon lamps) and water matrix on the photodegradation process, considering the ecological and economic sustainability of the process. Emphasis is put on the stability, ease of separation and reuse of the photocatalyst, power and safety of the irradiation source, identification of photodegradation intermediates and toxicity assays. 'the main approaches are critically discussed, main challenges and perspectives for an effective photocatalytic water treatment technology are pointed out.

Automated summary

Heterogeneous photocatalysis using titanium dioxide-based materials is a promising solution to water pollution. However, the research often remains confined to the laboratory due to the limitations of the developed materials and photodegradation conditions. This paper collects and compares studies on the photocatalytic degradation of sulfamethoxazole to find the best approaches for industrial application. Factors such as different types of TiO2-based photocatalysts, irradiation sources, and water matrices are considered, along with the stability and reusability of the photocatalyst and the identification of intermediate products and toxicity assays.