Enhanced photo-degradation of paracetamol on n-platinum-loaded TiO2: The effect of ultrasound and OH/hole scavengers

Elimination/mineralization of paracetamol (PCT) was investigated by catalytic oxidation under ultrasound, UV and both. The catalyst was synthesized by immobilization of nPt on TiO2 to benefit from the ability of Pt to facilitate charge transfer processes and to separate e−/h+ pairs. It was found tha...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2016-11, Vol.162, p.324-332
Main Authors: Ziylan-Yavaş, Asu, Ince, Nilsun H.
Format: Article
Language:English
Subjects:
2-Propanol - pharmacology
Acetaminophen - chemistry
Acetaminophen - metabolism
Acetaminophen - radiation effects
Bubble collapse
Catalysis
Free Radical Scavengers - pharmacology
Hydroxyl Radical - chemistry
Metal loading
Oxidation-Reduction
PCT
Photochemical Processes
Photolysis
Photosensitizing Agents - pharmacology
Platinum
Platinum - chemistry
Scavenging
Schottky barrier
Solvents
Sonophoto
Titanium - chemistry
Ultrasonics
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Summary:Elimination/mineralization of paracetamol (PCT) was investigated by catalytic oxidation under ultrasound, UV and both. The catalyst was synthesized by immobilization of nPt on TiO2 to benefit from the ability of Pt to facilitate charge transfer processes and to separate e−/h+ pairs. It was found that increasing the Pt-loading enhanced the rate of sonochemical reactions, but retarded that of photolytic reactions, due to reduced UV absorption on the surface. Simultaneous application of sonolysis and photolysis was synergistic due to disaggregation of the particles and homogenization of the active species over the catalyst surface. The decay of PCT was highly dependent on the availability of OH, as the reactions were nearly terminated in the presence of a strong OH scavenger-2-propanol. However, a remarkable rate enhancement was observed in the presence of a suitable dose of I−, which scavenges both OH and hvb+. The result was explained by the production of excess radicals upon sonolysis of iodide solutions, and the reactivity of PCT with them. Finally, carbon mineralization was significantly hindered in the presence of both scavengers due to increased competition for OH and inefficient formation of hydroquinone arising from reduced availability of hvb+. •Sono-, photo- and sono-photocatalytic degradation of paracetamol was studied with pristine and immobilized TiO2.•TiO2 was immobilized sonolytically using nano-Pt.•Increased Pt-loading enhanced sonocatalytic activity, but inhibited photocatalytic activity.•Photocatalysis with ultrasound led to a synergy.•Decomposition of paracetamol was dependent on OH only; but mineralization on OH and h+.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2016.07.090