Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/45753
Título: TiO2-based (Fe3O4, SiO2, reduced graphene oxide) magnetically recoverable photocatalysts for imazalil degradation in a synthetic wastewater
Autores/as: Santiago, Dunia E. 
Pastrana-Martínez, Luisa M.
Pulido-Melián, Elisenda 
Araña Mesa, Francisco Javier 
Faria, Joaquim L.
Silva, Adrián M.T.
González-Díaz, Óscar 
Doña-Rodríguez, José M. 
Clasificación UNESCO: 3303 ingeniería y tecnología químicas
Palabras clave: Imazalil
Photocatalysis
TiO2
Magnetic
Fe3O4, et al.
Fecha de publicación: 2018
Editor/a: 0944-1344
Proyectos: Eliminacion Fotocatalitica de Mezclas de Nox y Covs en Emisiones Gaseosas Con Ti02 y Oxidos Mixtos. 
Publicación seriada: Environmental Science and Pollution Research 
Resumen: Magnetite (Fe3O4), a core-shell material (SiO2@Fe3O4), and reduced graphene oxide-Fe3O4 (referred as rGO-MN) were used as supports of a specific highly active TiO2 photocatalyst. Thermal treatments at 200 or 450 °C, different atmospheres (air or N2), and TiO2:support weight ratios (1.0, 1.5, or 2.0) were investigated. X-ray diffractograms revealed that magnetite is not oxidized to hematite when the core-shell SiO2@Fe3O4 material—or a N2 atmosphere (instead of air) in the thermal treatment—was employed to prepare the TiO2-based catalysts (the magnetic properties being preserved). The materials treated with N2 were first tested for degradation of imazalil (a well-known fungicide) in deionized water. The best compromise between the photocatalytic activity, magnetic separation, and Fe leached (1.61 mg L−1, i.e., below the threshold for water reuse in irrigation) was found for the magnetic catalyst prepared with SiO2@Fe3O4, an intermediate TiO2:support ratio (1.5), and treated at 200 °C under N2 atmosphere (i.e., SiO2@Fe3O4-EST-1.5-200-N2). This material was then tested for the treatment of imazalil in a synthetic wastewater, SW (with a chemical composition simulating an effluent resulting from fruit postharvest activity). This SW has a pH of 4.2 and the experiments were carried out at this natural pH0 and at neutral conditions (keeping pH at 7 along the reaction). The magnetic catalyst was more active than bare TiO2 for the treatment of imazalil in SW at natural pH. Since Fe leaching was observed (3.53 mg L−1), added H2O2 enhanced both imazalil degradation and mineralization. Conveniently, these catalysts can be readily recovered by using a conventional magnetic field, as demonstrated over three consecutive recycling runs.
URI: http://hdl.handle.net/10553/45753
ISSN: 0944-1344
DOI: 10.1007/s11356-018-1586-1
Fuente: Environmental Science and Pollution Research[ISSN 0944-1344],v. 25, p. 27724-27736
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