Refractory antibiotics in domestic wastewater are hard to be completely eliminated by conventional methods,and then lead to severe environmental contamination and adverse effects on public health.In present work,advanced oxidation processes(AOPs)are adopted to remove the antibiotic of sul-fachloropyridazine(SCP).Nanosized Mn2O3 was fabricated on the SBA-15 material to catalytically acti-vate potassium peroxydisulfate(PDS)to generate reactive oxygen radicals of·OH and SO4-for SCP degradation.The effects of location and size of Mn2O3 were explored through choosing either the as-made or template-free SBA-15 as the precursor of substrate.Great influences from the site and size of Mn2O3 on the oxidation activity were discovered.It was found that Mn2O3 with a large size at the exterior of SBA-15(Mn-tfSBA)was slightly easier to degrade SCP at a low manganese loading of 1.0-2.0 mmol·g-1;however,complete SCP removal could only be achieved on the catalyst of Mn2O3 with a refined size at the interior of SBA-15(Mn-asSBA).Moreover,the SO4-.species were revealed to be the decisive radicals in the SCP degradation processes.Exploring the as-made mesoporous silica as a support provides a new idea for the further development of environmentally friendly catalysts.

School of Environmental and Chemical Engineering,Jiangsu University of Science and Technology,Zhenjiang 212003,China;School of Engineering,Edith Cowan University,Joondalup,WA 6027,Australia;State Key Laboratory of Materials-Oriented Chemical Engineering,College of Chemistry and Molecular Engineering,Nanjing Tech University,Nanjing 211816,China;School of Chemical Engineering and Advanced Materials,The University of Adelaide,Adelaide,SA 5005,Australia

[1]Min Lu;Mengxuan Liu;Chunli Xu;Yu Yin;Lei Shi;Hong Wu;Aihua Yuan;Xiao-Ming Ren;Shaobin Wang;Hongqi Sun-.Location and size regulation of manganese oxides within mesoporous silica for enhanced antibiotic degradation)[J].中国化学工程学报（英文版）,2022(08):36-43

fachloropyridazine,tfSBA,asSBA

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