Conte, F.; Pellegatta, V.; Di Michele, A.; Ramis, G.; Rossetti, I. Photocatalytic Reduction of Nitrates and Combined Photodegradation with Ammonium. Catalysts2022, 12, 321.
Conte, F.; Pellegatta, V.; Di Michele, A.; Ramis, G.; Rossetti, I. Photocatalytic Reduction of Nitrates and Combined Photodegradation with Ammonium. Catalysts 2022, 12, 321.
Conte, F.; Pellegatta, V.; Di Michele, A.; Ramis, G.; Rossetti, I. Photocatalytic Reduction of Nitrates and Combined Photodegradation with Ammonium. Catalysts2022, 12, 321.
Conte, F.; Pellegatta, V.; Di Michele, A.; Ramis, G.; Rossetti, I. Photocatalytic Reduction of Nitrates and Combined Photodegradation with Ammonium. Catalysts 2022, 12, 321.
Abstract
Bare titania and metal promoted TiO2 catalysts were employed in the treatment of nitrates, which are ubiquitous pollutants of wastewater. The results show that the process can be carried out under visible light (from white light LED lamp) and, in the best case, 23.5% conversion of nitrate was obtained over 4 hours with full selectivity towards N2 by employing 0.1 mol% Ag/TiO2 prepared by flame spray pyrolysis. Moreover, the performance was worse when testing the same catalysts with tap water (11.3% conversion), due to the more complex composition of the matrix. At last, it was found that the photoreduction of nitrate can be effectively performed in combina-tion with the photo-oxidation of ammonium without loss in the activity, opening to the possi-bility to treat highly polluted wastewater with a single process. The latter treatment employs the two contaminants simultaneously as electron and holes scavengers, with very good selectiv-ity, in a completely new process that we may call Photo-Selective Catalytic Reduction (Pho-to-SCR).
Chemistry and Materials Science, Applied Chemistry
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