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Degradation of Ciprofloxacin in Aqueous Solution by Activating Thperoxymonosulfate Using Graphene Based on Cofe2 O4 Publisher



Pourzamani H1 ; Jafari E1 ; Rozveh M2 ; Mohammadi H3 ; Rostami M1 ; Mengelizadeh N4
Authors
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Authors Affiliations
  1. 1. Department of Environmental Health Engineering, School of Health, Environment Research Center, Isfahan University of Medical Sciences, Isfahan, Iran
  2. 2. Department of nanotechnology engineering, Faculty of advanced science and technology, Isfahan University, Isfahan, Iran
  3. 3. Department of Environmental Health Engineering, Torbat Jam Faculty of Medical Sciences, Torbat Jam, Iran
  4. 4. Department of Environmental Health Engineering, Evas Faculty of Health, Larestan University of Medical Sciences, Larestan, Iran

Source: Desalination and Water Treatment Published:2019


Abstract

In this study, the graphene-cobalt ferrites (G-CoFe2 O4 ) nanocatalyst was synthesized and used to activate peroxymonosulfate (PMS) for the degradation of ciprofloxacin (CIP). The scanning electron microscopy and powder X-ray diffraction analysis results showed the successful loading of CoFe2 O4 on the graphene surface. The effect of operational parameters such as initial pH, G-CoFe2 O4 dosage, PMS dosage and initial concentration of ciprofloxacin on CIP degradation efficiency and the kinetic constant rate was evaluated. The results showed that highest removal efficiency of CIP was achieved at pH 7, 200 mg/L G-CoFe2 O4, 2 mM PMS, 25 mg/L CIP and 30 min reaction time. The results also showed that the PMS/G-CoFe2 O4 system works in a wide range of pH (4–7) with a minimum reduction in degradation efficiency. The PMS/G-CoFe2 O4 system has a higher efficiency in PMS activation and CIP degradation compared with other catalytic processes. This increase was due to the increase of active sites to adsorb CIP and catalytic degradation of it by radicals. Scavenging experiments •– using tert butyl-alcohol and ethanol showed that both radicals sulfate (SO4 ) and hydroxyl (• OH) •– are produced in the reaction and the SO4 is the main radical for the CIP degradation. The results of continuous experiments showed the high efficiency of the PMS/G-CoFe2 O4 process (91.9%) in CIP degradation. The G-CoFe2 O4 nanocatalyst as the heterogeneous activator of PMS showed the high structural stability, good reusability, high catalytic activity and easy separation by the magnetic field. © 2019 Desalination Publications. All rights reserved.
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