Abstract
•Decoration of Pt on the surface of CeO2via deposition precipitation method.•Pt/CeO2 has an excellent sonophotocatalytic degradation of Acid Red 17 under visible light.•Ultrasonic waves enhanced the degradation efficiency via generating OH• free radicals.•The sonophotodegradtion of Acid Red 17 over Pt/CeO2 follows pseudo first order kinetic model.•Pt/CeO2 exhibit remarkable stability and reusability.
Sonophotocatalysis is an innovative energy transfer technique proposed to produce solar energy and environmental remediation. Herein, we designed platinum (Pt) decorated CeO2 and applied it as sonophotocatalyst for pollutant degradation. Sonophotocatalytic activity of the as-prepared Pt/CeO2 nanocomposite was carried out at 40 kHz frequency ultrasonic waves under visible light irradiation. The sonophotocatalytic degradation efficiency of Acid Red 17 over Pt/CeO2 nanocomposite is much higher when compared to photocatalytic degradation. This unprecedented sonophotoactivity is credited to ultrasonic waves that generate additional OH• free radicals by scavengers test. The effect of various operational conditions like pH, amount of catalyst, and concentration of acid red 17 dye were also studied. More intriguingly, the sonophotoactivity of the optimized amount remains high and almost unchanged for up to four cycles, indicating the stability of the sonophotocatalyst. This steady progress has exemplified that Pt/CeO2 nanocomposites are playing and will continue to play an indispensable role in solar energy production and environmental remediation.
[Display omitted]