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Characterization of Various Titanium-Dioxide-Based Catalysts Regarding Photocatalytic Mineralization of Carbamazepine also Combined with Ozonation.

Gábor KocsisErzsébet Szabó-BárdosOrsolya FónagyEvelin FarsangTatjána JuzsakovaMiklós JakabPéter PekkerMargit KovácsOttó Horváth
Published in: Molecules (Basel, Switzerland) (2022)
Titanium-dioxide-based semiconductors proved to be appropriate for photocatalytic application to efficiently degrade emerging organic pollutants such as various herbicides, pesticides, and pharmaceuticals in waters of environmental importance. The characterization of various TiO 2 catalysts, both bare and modified (Ag- and/or N-doped), by mechanochemical treatment was carried out in this work, regarding their structure, morphology, and photocatalytic activity. For the latter investigations, carbamazepine, an antidepressant, proved to be applicable and versatile. The photocatalytic behavior of the catalysts was studied under both UV and visible light. Besides the decomposition efficiency, monitoring the intermediates provided information on the degradation mechanisms. Mechanochemical treatment significantly increased the particle size (from 30 nm to 10 μm), causing a considerable (0.14 eV) decrease in the band gap. Depending on the irradiation wavelength and the catalyst, the activity orders differed, indicating that, in the mineralization processes of carbamazepine, the importance of the different oxidizing radicals considerably deviated, e.g., Ag-TiO 2 < DP25-TiO 2 < ground-DP25-TiO 2 < N-TiO 2 ≈ N-Ag-TiO 2 for O 2 •- and N-TiO 2 ≈ Ag-TiO 2 < N-Ag-TiO 2 < ground-DP25-TiO 2 ≈ DP25-TiO 2 for HO • generation under UV irradiation. Toxicity studies have shown that the resulting intermediates are more toxic than the starting drug molecule, so full mineralization is required. This could be realized by a synergistic combination of heterogeneous photocatalysis and ozonation.
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