Abstract
Application of solar photocatalysis for water treatment is intensively studied. In this work, we investigated TiO2 modified with platinum (Pt/TiO2) and palladium (Pd/TiO2) using sulfamethoxazole (SMX) as the model contaminant. We considered the following parameters: (i) level of TiO2 modification with Pt/Pd, (ii) initial concentration of photocatalysts, (iii) geographic location where processes were conducted, and (iv) natural water matrix. The catalysts characterized by SEM, EDX, DRS, and XRD techniques showed successful deposition of Pd and Pt atoms on TiO2 surface that enabled light absorption in the visible (Vis) range, and therefore caused efficient SMX removal in all tested conditions. A comparison of the rate constants of SMX degradation in various conditions revealed that modification with Pd gave better results than modification with Pt, which was explained by the better optical properties of Pd/TiO2. The removal of SMX was higher with Pd/TiO2 than with Pt/TiO2, independent of the modification level. In the experiments with the same modification level, similar rate constants were achieved when four times the lower concentration of Pd/TiO2 was used as compared with Pt/TiO2. Formation of four SMX transformation products was confirmed, in which both amine groups are involved in photocatalytic oxidation. No toxic effect of post-reaction solutions towards Lepidium sativum was observed.
Highlights
Every year numerous studies report on the incomplete removal of anthropogenic contaminants from wastewater during conventional wastewater treatment with activated sludge [1,2,3,4]
More Scanning Electron Microscopy (SEM) pictures are found in Supporting Information (SI) Figures S1 and S2
Elemental composition of catalysts is shown on the corresponding energy-dispersive X-ray (EDX)
Summary
Every year numerous studies report on the incomplete removal of anthropogenic contaminants from wastewater during conventional wastewater treatment with activated sludge [1,2,3,4]. Chemical processes, such as advanced oxidation processes (AOPs), received a lot of attention with respect to their application for water treatment purposes [6,7,8]. The semiconductor photocatalysis, especially with titanium dioxide (TiO2 ), has been studied in detail, with regard to the elimination of selected micropollutants in water [9,10,11,12]. This inexpensive, stable and nontoxic catalyst gives very good removal efficiencies
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