Affiliation:
1. Nanomaterials & Solar Energy Conversion Lab Department of Chemistry National Institute of Technology Tiruchirappalli 620015 India
2. Department of Chemistry College of Science Sultan Qaboos University P.O. Box- 36 P.C. 9 123 Al-Khoudh, Muscat Oman
3. Department of Chemistry College of Science King Saud University Riyadh 11451 Saudi Arabia
4. School of Materials Engineering Shanghai University of Engineering Science Shanghai 201620 China
5. School of Chemistry University of Melbourne Melbourne, Vic 3010 Australia
Abstract
AbstractAmong the perovskite oxide community, La‐based perovskites have garnered considerable interest due to their remarkable properties including catalytic, electrocatalytic, photocatalytic, sensing, electrical, magnetic, and optical characteristics. Herein, rhodamine‐B (RB) dye has been reported to be sono‐catalytically decomposed by an ultrasound‐assisted advanced oxidation process (AOP) using perovskite‐type LaMnO3 (LMO) nanospheres synthesized via ultrasonic approach. Several physiochemical characterizations such as XRD, FT‐IR, XPS, SEM, TEM, and SEM‐EDS investigations were used to investigate the LMO perovskite nanospheres. Then, LMO potential for adsorption and the sonocatalytic decolorization of RB dye in an aqueous solution are examined. With LMO perovskites, the adsorption and removal kinetics of RB correspond to the pseudo‐first‐order model. Furthermore, by utilizing the pseudo‐first‐order, the RB dye process is removed with improved efficacy in the following sequence: Agitation alone: 3.76×10−4 min−1<US only: 5.02×10−3 min−1<LMO only: 5.85×10−3 min−1<LO@MO + US: 1.38×10−2 min−1<LMO + US: 1.75×10−2 min−1, accordingly. Perovskite‐type LMO, which has significant reusability and stability, is an ensuring sonocatalyst for dye decomposition in wastewater, enabling faster decolorization. A prospective mechanism has been suggested for the sonocatalytic decomposition of RB.
Funder
Scheme for Promotion of Academic and Research Collaboration