LAUSR

Abstract Water resources are drastically decreasing due to the aquatic pollutants involved with the rapid growth of microbial colonies. Mitigation of contaminants and corresponding actions is necessary to impede severe health risks and fulfill clean water demand. Piezocatalysis appears as a potential advanced oxidation technique based on vibrational energy harvesting mechanism and conversion with piezo materials' assistance. Owing to the effectiveness of piezocatalysis, we synthesized the Cu2MgSnS4 modified BaTiO3 (CMTS@BTO) displayed remarkable piezocatalytic degradation against organic contaminants and microbes. CMTS@BTO revealed more than 90 percent disinfection in heterotrophic conditions while also degraded 88 to 98% of organic dyes using ultrasound vibrations. Our findings have a significant contribution to water remediation and indicate potential use in other biological applications.