CETMIC   05378
CENTRO DE TECNOLOGIA DE RECURSOS MINERALES Y CERAMICA
Unidad Ejecutora - UE
artículos
Título:
Benzimidazole adsorption on the external and interlayer surfaces of raw and
Autor/es:
ROSA M. TORRES SÁNCHEZ; MICHEL J. GENET; ERIC M. GAIGNEAUX; MARIA DOS SANTOS AFONSO; SIMÓN YUNES
Revista:
APPLIED CLAY SCIENCE
Editorial:
ELSEVIER SCIENCE BV
Referencias:
Lugar: Amsterdam; Año: 2010
ISSN:
0169-1317
Resumen:
The purpose of this study is to evaluate the efficiency of benzimidazole removal using raw, thermally and mechanically treated montmorillonite surfaces. The comparison of benzimidazole adsorption curves on these montmorillonite surfaces was made. A two step sorption mechanism that describes the data was corroborated by X-ray diffraction (XRD) results. The removal efficiency for the different sorbents at pH 6 follows the sequence raw montmorilloniteNther- mally treated montmorilloniteNmechanically treated montmorillonite. The external and the interlayer surfaces were proposed as adsorption sites. On the latter, benzimidazole adsorbs in a planar monolayer arrangement with a consequent reduced water uptake. Two different foms of benzimidazole nitrogen surface coordination were indicated by X-ray photoelectron spectroscopy (XPS) results and isoelectric point (IEP) values. Protonated and deprotonated nitrogen were equally coordinated to the surface for raw and thermally treated samples at low temperature (350 °C). Stronger coordination of deprotonated nitrogen was found for samples treated at higher temperature (550 °C), while only a cationic exchange and no coordination to the surface was observed for the mechanically treated sample.ficiency of benzimidazole removal using raw, thermally and mechanically treated montmorillonite surfaces. The comparison of benzimidazole adsorption curves on these montmorillonite surfaces was made. A two step sorption mechanism that describes the data was corroborated by X-ray diffraction (XRD) results. The removal efficiency for the different sorbents at pH 6 follows the sequence raw montmorilloniteNther- mally treated montmorilloniteNmechanically treated montmorillonite. The external and the interlayer surfaces were proposed as adsorption sites. On the latter, benzimidazole adsorbs in a planar monolayer arrangement with a consequent reduced water uptake. Two different foms of benzimidazole nitrogen surface coordination were indicated by X-ray photoelectron spectroscopy (XPS) results and isoelectric point (IEP) values. Protonated and deprotonated nitrogen were equally coordinated to the surface for raw and thermally treated samples at low temperature (350 °C). Stronger coordination of deprotonated nitrogen was found for samples treated at higher temperature (550 °C), while only a cationic exchange and no coordination to the surface was observed for the mechanically treated sample.