作 者:蔣茹,朱華躍,等
影響因子:3.15
刊物名稱:Applied Surface Science
出版年卷:2016, 364: 604-612
文章摘要:Novel magnetically separable BiOBr/CoFe2O4 microspheres assembled from nanoparticles were successfully
fabricated by a facile solvothermal method at 160 ◦C for 12 h. Then, BiOBr/CoFe2O4 microspheres
were characterized via XRD, TEM, SEM, EDS and VSM. Congo red (CR) was selected as a pollutant model
to evaluate the photocatalytic activities of BiOBr/CoFe2O4 microspheres. The value of coercivity (232 Oe)
and the saturation magnetization (33.79 emu g−1) were obtained, which indicated that BiOBr/CoFe2O4
microspheres can be separated and recovered easily from the treated solution. What is more, by calculation,
the initial rate constants of BiOBr/CoFe2O4 microspheres is about 1.45 times higher than that of
the pure BiOBr, which resulted from superior adsorption and transfer performance to organic contaminants
in aqueous systems. Four consecutive regeneration cycles demonstrated that the BiOBr/CoFe2O4
microspheres had high photostability under simulated solar light irradiation. According to the radical
trapping experiments, the h+ radicals and O2
•− radicals were the two main active species that drive the
photocolorization of CR pollutant by BiOBr/CoFe2O4 microspheres under simulated solar light irradiation.
This work suggests that the BiOBr/CoFe2O4 microspheres may be a promising photocatalyst for
photodegrading organic pollutants and environmental remediation.
全文鍊接