A microwave assisted method to synthesize nanoCoFe2O4@methyl cellulose as a novel metal-organic framework for antibiotic degradation

Publication date: Available online 26 June 2019Source: MethodsXAuthor(s): Alireza Nasiri, Fatemeh Tamaddon, Mohammad Hossein Mosslemin, Maryam FarajiAbstractIn this research, magnetically separable nanoCoFe2O4@methyl cellulose (MC) as a novel metal-organic framework was designed by a facile, fast, and new microwave-assisted method and then characterized. To assay the photocatalytic activity of nanoCoFe2O4@MC, its ability in metronidazole (MNZ) removal was investigated by considering the effect of some variables such as initial MNZ concentrations (5– 20 mg/L), pH (3–11), nanophotocatalyst loading (0.0–0.4 g), and reaction time (15–120 min). The kinetic performance of the process was assessed by the pseudo-first order and Langmuir-Hinshelwood models. The concentration of MNZ was determined by high performance liquid chromatography. The optimal conditions for the maximum MNZ removal efficiency (85.3%) included pH of 11, MNZ concentration of 5 mg/L, photocatalyst loading of 0.2 g, and irradiation time of 120 min. Moreover, the reusability and chemical stability of nanoCoFe2O4@MC were studied. MNZ was successfully degraded at a rate of 77.58% in the fourth run.Advantages of this technique were as follows:•A facile, fast, and new microwave-assisted method was developed to synthesize nanoCoFe2O4@MC as a new nanobiomagnetic photocatalyst.•Pure-phase spinel ferrites, spherical particle morphology with smaller agglomeration, and ferromagnetic nature of nanoCoFe2...
Source: MethodsX - Category: Science Source Type: research