Reusable cysteine-ferrite-based magnetic nanopowders for removal of lead ions from water

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Abstract

Magnetic nanopowders were developed by functionalization of bimagnetic core@shell nanoparticles with cysteine (CoFe2O4@γ-Fe2O3@Cys), which present a core with high saturation magnetization (CoFe2O4) combined with a shell with high long-term chemical stability (γ-Fe2O3) and a sorptive L-cysteine layer. Samples of two different mean sizes were elaborated and characterized by XRD, TEM, FTIR, SER, zetametry and SQUID magnetometry. The adsorption of Pb(II) by the magnetic nanopowders was investigated as a function of pH, time, and pollutant concentration. The Langmuir model fitted well the adsorption data indicating monolayer adsorption, and a maximum adsorption capacity of 1.2 mg/g was found for pH 5. The kinetic data were well correlated to the pseudo-second-order model and the best equilibrium time was 120 min. The adsorption mechanism mainly involves electrostatic interactions in pH 5-7 and hard-soft-acid-base interactions in low pH. Moreover, the nanoparticles were recovered and reused in readsorption experiments keeping a good removal efficiency.

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Campos, A. F. C., Reis, P. F., Neiva, J. V. C. M., Guerra, A. A. A. M., Kern, C., da Silva, M. F. P., … Depeyrot, J. (2021). Reusable cysteine-ferrite-based magnetic nanopowders for removal of lead ions from water. Materials Research, 25(4). https://doi.org/10.1590/1980-5373-MR-2021-0217

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