Abstract
Adsorption of organomercury species, CH3Hg+, C2H2Hg+ and C6 H5 Hg+ from aqueous media onto monodisperse polystyrene (PS) microspheres carrying dithiocarbamate groups were investigated. The crosslinked PS microspheres (2 μm in diameter) were produced by dispersion polymerization, and then dithiocarbamate groups were incorporated by a two-step procedure. Adsorption rate and capacity of these sorbents for selected organomercury ions from aqueous media containing different amounts of these ions and at different pH of 3.0-8.0 were investigated. Very high adsorption rates were observed at the beginning, and adsorption equilibria were then gradually achieved in about 40 min. The maximum adsorption of metal ions onto the dithiocarbamate modified PS microspheres were 123.2 mg, 113.6 mg and 20.1 mg per gram of the sorbent microspheres for CH3Hg+, C2H5Hg+ and C6H5Hg+ respectively. C6H5Hg+ ion concentrations higher than 100 μg/mL could not be studied due to its limited solubility. When the metal ions competed (in the case of the adsorption from their mixture) the amounts of adsorption of the ions were equal. Desorption of metal ions were studied by using 2.0 M NaCl and 5% thiourea solutions. High desorption ratios (more than 90%) were achieved in all cases. Adsorption-desorption cycles showed the feasibility of repeated uses of this sorbent system.