Facile synthesis, structural and optical characterizations of Bi12ZnO20 sillenite crystals: Application for Cefuroxime removal from wastewater

The purpose of this work is to study the crystal structural and optical properties of the bismuth-based zinc sillenite Bi12ZnO20 (BZO) in order to be used for environmental application. BZO nanoparticles were synthesized by the co-precipitation technique. The obtained catalyst was characterized by different techniques. Starting with XRD, the structure was refined from XRD data using the Rietveld method and then illustrated for the first time. A space group of I23 was identified for BZO with a cell parameter a = 10.214 angstrom. The morphology was visualized by SEM. The optical proprieties have been evaluated by DRS, an optical bandgap of 2.8 eV was found. This narrow bandgap allows this sillenite to be a promising photocatalyst for photocatalytic applications. For that, we tested it for the removal of Cefuroxime antibiotic, this catalyst has shown very interesting activity in degrading this pollutant around 80% in just 4 h. This rate is the highest compared to the literature.

Automated summary

The crystal structural and optical properties of bismuth-based zinc sillenite Bi12ZnO20 (BZO) were studied for environmental applications. BZO nanoparticles were synthesized using the co-precipitation technique and characterized through various methods. BZO showed promising photocatalytic activity with a narrow optical bandgap, and demonstrated high efficiency in degrading pollutants, outperforming previous studies in the literature.