Please use this identifier to cite or link to this item: http://repositorio.ufla.br/jspui/handle/1/38093
metadata.artigo.dc.title: Influence of magnetic field on the adsorption of organic compound by clays modified with iron
metadata.artigo.dc.creator: Tireli, Aline Auxiliadora
Marcos, Francielle Candian Firmino
Oliveira, Laís Ferreira
Guimarães, Iara do Rosário
Guerreiro, Mário César
Silva, Joaquim Paulo
metadata.artigo.dc.subject: Clay
Adsorption
Organic compound
Magnetic field
metadata.artigo.dc.publisher: Elsevier
metadata.artigo.dc.date.issued: Aug-2014
metadata.artigo.dc.identifier.citation: TIRELI, A. A. et al. Influence of magnetic field on the adsorption of organic compound by clays modified with iron. Applied Clay Science, [S.l.], v. 97/98, p. 1-7, Aug. 2014.
metadata.artigo.dc.description.abstract: Insertion of iron into montmorillonite (Mt) resulted in two modified materials, when different treatments were used: i) pillared clay (FePILC) and ii) magnetic clay (FeMAG). The ability of the modified clays to remove the organic dye methylene blue (MB) by adsorption was tested. Additionally, we evaluated the effects of adsorption after exposure to a pulsed magnetic field, the results were monitored by UV–vis spectroscopy and chemical analysis of total organic carbon. All materials were characterized by X-ray powder diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), temperature-programmed reduction (TPR), scanning electron microscopy coupled with energy dispersive spectroscopy (SEM/EDS) and specific surface area measurements. The catalytic activity of the clays modified with iron was evaluated in hydrogen peroxide decomposition reaction. The XRD patterns show the formation of crystalline iron phases on the surface of the clays, besides confirming the pillaring procedure for FePILC with a basal spacing of 1.79 nm, an increase of 0.53 nm over the montmorillonite. The specific surface area of FePILC was 210.9 m2/g. FeMAG had part of this original structure broken, with an area of 177.1 m2/g and magnetic properties demonstrated by the attraction to a permanent magnet. The TPR profiles and EDS indicated that the different heat treatments exerted great influence on the amount and phases of iron formed. The materials showed high capacity for removal of the MB dye, and the isotherms fit the Langmuir model. Adsorption of the dye significantly increased in the presence of a magnetic field, changing the Langmuir parameters and especially the maximum adsorption capacity for all materials. The best results were observed for FeMAG.
metadata.artigo.dc.identifier.uri: https://www.sciencedirect.com/science/article/pii/S0169131714001665
http://repositorio.ufla.br/jspui/handle/1/38093
metadata.artigo.dc.language: en_US
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