Influence of Seawater Characteristics on Antibiotic Pollutant Removal via Fe(II)-Peroxymonosulfate-Modified Clay

Abstract: Antibiotics have been identified as emerging pollutants, and they increasingly threaten the safety of mariculture; thus, effective treatment methods are urgently needed. In this study, Fe(II)-peroxymonosulfate-modified clay (Fe-PMS-MC), an effective mineral complex for harmful algal bloom control, was tested for sulfamethoxazole (SMX) removal from seawater. The results showed that SMX removal efficiency increased gradually from 42.3% to 100% in seawater in 6 h as the Fe-PMS-MC dose increased from 0.1 g/L to 1.… Show more

“…Such strong interaction prevents the organic moiety from immigration to the surrounding solutions and provides a durable immobilized organic layer on the clay surface. Other surface modification approaches include acid activation of clay [ 98 , 99 ], salt modification [ 100 ], and metal/metal oxide [ 101 , 102 ] modification approaches.…”

Clay-reinforced PVC composites and nanocomposites

“…Such strong interaction prevents the organic moiety from immigration to the surrounding solutions and provides a durable immobilized organic layer on the clay surface. Other surface modification approaches include acid activation of clay [ 98 , 99 ], salt modification [ 100 ], and metal/metal oxide [ 101 , 102 ] modification approaches.…”

Clay-reinforced PVC composites and nanocomposites