Abstract

A method for preconcentration and simultaneous determination of trace heavy metals in water media by core-shell superparamagnetic nanoparticles with the immobilized derivative of ethylenediaminetriacetic acid (referred to as MNPs/SiO2-EDTA) is proposed. The specific layer-by-layer covering of magnetite endowed the new material with essentially increased chemical stability of MNPs including acidic media and improved the affinity toward traces of toxic metal ions. The initial and modified materials were characterized by X-ray powder diffraction, Fourier transform infrared spectroscopy, transmission and scanning electron microscopies, elemental analysis, and vibrating sample magnetometry. The obtained particles were nanodimensional with a7-12-nm magnetic core and a4-6-nm silica shell. The MNPs/SiO2-EDTA quantitatively removes heavy metals from contaminated media at pH ≥ 3.5 within 15min. The adsorption data were successfully fitted to the pseudo-second-order kinetic model. The preconcentration factor was 150 and maximum adsorption capacity was 36.9mgg-1 for Cu(II), 108.8mgg-1 for Pb(II), 30.9mgg-1 for Zn(II), 34.32mgg-1 for Cr(III), and 59.5mgg-1 for Cd(II). Due to high stability in the wide range of pH, the magnetic adsorbent can be regenerated at least six times using0.1M HNO3. Following adsorption/desorption, determinationof metal ions isprovided by inductively coupled plasma optical emission spectrometry (ICP-OES) . The linear range of theproposed method is 0.1 - 200μgL-1. The limits of detection (LOD) are 0.12μgL-1 for Zn(II); 0.06μgL-1 for Cd(II); 0.39 for Cu(II); 0.15μgL-1 for Cr(III); and 0.76μgL-1 for Pb(II). The method performance was evaluated in the analysis of environmental, tap, and wastewater samples with recoveries in the range of 94.0-104.0%.

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