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Abstract
Fe(3)O(4) hollow nanospheres were prepared via a simple one-pot template-free hydrothermal
method and were fully characterized. These magnetic spheres have been investigated
for application as an adsorbant for the removal of dye contaminants from water. Because
of the high specific surface area, nano-scale particle size, and hollow porous material,
Fe(3)O(4) hollow spheres showed favorable adsorption behavior for Neutral red. Factors
affecting adsorption, such as, initial dye concentration, pH and contact time were
evaluated. Langmuir and the Freundlich adsorption isotherms were selected to explicate
the interaction of the dye and magnetic adsorbant. The characteristic parameters for
each isotherm have been determined. The overall trend followed an increase of the
sorption capacity with increasing dye concentration with a maximum of 90% dye removal.
The monolayer adsorption capacity of magnetic hollow spheres (0.05 g) for NR in the
concentration range studied, as calculated from the Langmuir isotherm model at 25
degrees C and pH 6, was found to be 105 mg g(-1). Adsorption kinetic followed pseudo-second-order
reaction kinetics. Thermodynamic study showed that the adsorption processes are spontaneous
and endothermic. The combination of the superior adsorption and the magnetic properties
of Fe(3)O(4) nanospheres can be useful as a powerful separation tool to deal with
environmental pollution.
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