Junyan Kuang, Qishi Si, Wanqian Guo, Fang Ma
State Key Laboratory of Urban Water Resource and Environment, School of Environment, Harbin Institute of Technology
HaiJuan Guo
School of Environment, Liaoning University
Abstract
A highly dispersed catalyst (Fe3O4/NFe) was prepared with Fe3O4 and natural goethite (NFe) to remove TC in the heterogeneous Fenton-like system. A large amount of ≡Si–O–Si on NFe could be destroyed by the grinding method to produce ≡SiO• on the surface. Fe3O4 nanoparticles were successfully grown on the NFe with the formation of Fe–O–Si bonds, the Fe3O4/NFe retained the magnetic performance and the larger dispersion from predecessors. In the Fe3O4/NFe/H2O2 process, the degradation performance of tetracycline (TC) could reach 90.1% in 30 min. Moreover, the toxicity of TC and its intermediates was estimated in ECOSAR software. The ESR analysis and quenching experiments revealed the contribution of •OH, HO2•, and ≡SiO• in TC removal. A part of •OH, HO2• in solution could decompose TC, and the ≡SiO• on surface also directly remove TC. The strong interactions of Fe–O–Si bonds improved the generation of abundant •OH, and the total concentration of •OH by Fe3O4/NFe in 30 min is 244.7 μmol/L. In DFT analysis, the electrons redistribution between Fe3O4 and NFe could easily provide the electrons to activate H2O2, and improved the adsorption of H2O2 in Fe3O4/NFe/ H2O2 system. The removal rate of TC still reached 73.3% by Fe3O4/NFe after five cycles. In the present work, this Fe3O4/NFe has been shown to be a promising alternative to traditional homogeneous Fenton method.
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68-Highly dispersed natural Goethite Fe3O4 heterogeneous Fenton like catalyst for efficient tetracycline degradation Rapid accumulation of hydroxyl radicals by Fe O Si bonds.pdf