Niobium Oxide Photocatalytically Oxidizes Ammonia in Water at Ambient Conditions

Ammonia contamination in water is a significant environmental issue since it is toxic and leads to eutrophication. Photocatalysis has been investigated as a strategy for ammonia degradation but can potentially form toxic nitrite (NO2 – ) and nitrate (NO3 – ) byproducts. This work reports on the abil...

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Veröffentlicht in:	Journal of the Brazilian Chemical Society 2024, Vol.35 (4)
Hauptverfasser:	Elias, Welman, Clark, Chelsea, Heck, Kimberly, Arredondo, Jacob, Wang, Bo, Toro, Andras, Kürti, László, Wong, Michael
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Schlagworte:	CHEMISTRY, MULTIDISCIPLINARY
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creator	Elias, Welman Clark, Chelsea Heck, Kimberly Arredondo, Jacob Wang, Bo Toro, Andras Kürti, László Wong, Michael
description	Ammonia contamination in water is a significant environmental issue since it is toxic and leads to eutrophication. Photocatalysis has been investigated as a strategy for ammonia degradation but can potentially form toxic nitrite (NO2 – ) and nitrate (NO3 – ) byproducts. This work reports on the ability of niobium oxide (Nb2O5) to photocatalytically oxidize aqueous-phase ammonia (NH3). Whereas as-synthesized Nb2O5 showed little catalytic activity (< 1% NH3 conversion after 6 h of UV-C irradiation, at room temperature and atmospheric pressure, and under O2 headspace), Nb2O5 treated in basic solution (OH-Nb2O5) was able to photocatalytically degrade NH3 at ca. 9% conversion after six hours, with ca. 70% selectivity to the desired N2, with a first-order rate constant of ca. 12 times higher than the as synthesize catalyst (1.6 × 10–3 min–1 vs. 2.0 × 10–2 min–1). Raman spectroscopic analysis indicated the presence of terminal Nb=O species after base treatment of Nb2O5, implicating them as catalytically active sites. These results underscore how a simple structural modification can significantly affect photocatalytic activity for aqueous ammonia oxidation.
doi_str_mv	10.21577/0103-5053.20230163
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Photocatalysis has been investigated as a strategy for ammonia degradation but can potentially form toxic nitrite (NO2 – ) and nitrate (NO3 – ) byproducts. This work reports on the ability of niobium oxide (Nb2O5) to photocatalytically oxidize aqueous-phase ammonia (NH3). Whereas as-synthesized Nb2O5 showed little catalytic activity (< 1% NH3 conversion after 6 h of UV-C irradiation, at room temperature and atmospheric pressure, and under O2 headspace), Nb2O5 treated in basic solution (OH-Nb2O5) was able to photocatalytically degrade NH3 at ca. 9% conversion after six hours, with ca. 70% selectivity to the desired N2, with a first-order rate constant of ca. 12 times higher than the as synthesize catalyst (1.6 × 10–3 min–1 vs. 2.0 × 10–2 min–1). Raman spectroscopic analysis indicated the presence of terminal Nb=O species after base treatment of Nb2O5, implicating them as catalytically active sites. 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title	Niobium Oxide Photocatalytically Oxidizes Ammonia in Water at Ambient Conditions
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