Phan, Hong Thi Bich
[Verfasser:in];
Nguyen, Anh Quoc Khuong
[Verfasser:in];
Ahn, Yong-Yoon
[Verfasser:in];
Kim, Kitae
[Verfasser:in];
Kim, Saewung
[Verfasser:in];
Kim, Jungwon
[Verfasser:in]
Visible Light-Induced Degradation of Propranolol with Peroxymonosulfate as an Oxidant and a Radical Precursor
Beschreibung:
A cost-effective method for the degradation of propranolol, which does not require a high amount of energy and expensive materials/chemicals, was developed. The degradation of propranolol by peroxymonosulfate (PMS) was slow under dark conditions. However, visible-light irradiation significantly accelerated the PMS-mediated propranolol degradation (degradation efficiency after 2 h = 71.0% under visible light vs. 9.7% under dark conditions), although neither PMS nor propranolol absorbed the visible light. The degradation products generated from the oxidation of propranolol by PMS absorbed visible light, which facilitated the photochemical reduction of PMS and oxygen and the production of various free radicals, such as superoxide (O 2 ●− ), hydroxyl ( ● OH), and sulfate radicals (SO 4 ●− ). These behaviors were verified by ultraviolet–visible absorption spectroscopy, electron spin resonance spectroscopy, fluorescence spectroscopy, and radical quenching experiments. The production of radical species (particularly ● OH), which was negligible under dark conditions, was responsible for the enhanced degradation of propranolol in the presence of PMS under visible light. The positive effect of visible light on the propranolol degradation was observed in the PMS concentration range and the pH range of 100−3000 μM and 3−9, respectively. Compared to the visible light/platinum-loaded tungsten oxide (Pt-WO 3 ) system, the visible light/PMS system showed a superior ability to degrade propranolol (degradation efficiency after 2 h of visible-light irradiation = 71.0% in the visible light/PMS system vs. 58.3% in the visible light/Pt-WO 3 system)