| 论文摘要: |
To reduce the negative impact of antibiotics on the water environment, shaddock peels biochar co-doped with iron and cobalt (Fe-Co@SPC) was employed in the peroxymonosulfate (PMS) system to eliminate tetracycline (TC). The obtained Fe-Co@SPC could efficiently activate PMS and degrade 95.6 % of TC within 1 h at pH 9.06. Notably, the presence of HCO3- promoted PMS activation, which was mainly because the weakly alkaline system inhibited metal ion leaching. PO43- invaded the surface active sites on the Fe-Co@SPC and formed O-P/C-PO3, which inhibited PMS activation. The scavenging and EPR analysis results demonstrated SO4 center dot- , center dot OH, 1O2 and O2 center dot- were the major ROS. Besides, the C=O functional group and Fe-Co bimetal on Fe-Co@SPC accelerated the electronic transfer. Three reaction pathways were proposed in the Fe-Co@SPC/PMS system and the potential ecotoxicity of the intermediates was significantly declined. Based on the reusability and stability, Fe-Co@SPC could efficiently activate PMS to degrade organic pollutants in water bodies. |
