Journal
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
Volume 27, Issue 23, Pages 29599-29611Publisher
SPRINGER HEIDELBERG
DOI: 10.1007/s11356-020-09303-0
Keywords
Low-temperature plasma; Dielectric barrier discharge (DBD); rGO-TiO2; Clothianidin; Advanced oxidation; Photocatalysis
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Funding
- National Key Research and Development Plan of China [2018YFC0408006]
- Natural Science Foundation of China [51978386]
- National Natural Science Foundation of China Joint Fund Project [U1906224]
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Clothianidin served as the model pollutant to investigate the performance and mechanism of pollutant removal by dielectric barrier discharge plasma (DBD) combined with the titanium dioxide-reduced graphene oxide (rGO-TiO2) composite catalyst. In this study, different ratios of titanium dioxide-graphene catalysts were loaded onto honeycomb ceramic plates via the sol-gel method, and the modified catalytic ceramic plates were characterized by XRD, SEM, FTIR, DRS, and energy dispersive X-ray. The results suggested that the rGO-TiO2 was well loaded on the surface of the honeycomb ceramic plates. According to the results of the characterization experiments and the degradation of the clothianidin solution with different proportions of the catalyst, 8 wt% rGO-TiO2 was selected as the optimum ratio for degradation. Clothianidin degradation efficiency was significantly influenced by input power, clothianidin concentration, pH value, liquid conductivity, free radical quencher. Finally, six degradation products of clothianidin were identified by HPLC-MS, and the possible transformation pathways of clothianidin degradation were identified. Graphical abstract
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