Synthesis of Magnetic Adsorbents Based Carbon Highly Efficient and Stable for Use in the Removal of Pb(II) and Cd(II) in Aqueous Solution
Metadatos
Afficher la notice complèteAuteur
Benjedim, Safa; Hamad, Hesham; Bailón García, Esther; Carrasco Marín, Francisco; Pérez Cadenas, Agustín FranciscoEditorial
MDPI
Materia
Magnetic adsorbents Argan shells Adsorption Wastewater treatment Metals removal
Date
2021Referencia bibliográfica
Benjedim, S.; Romero-Cano, L.A.; Hamad, H.; Bailón-García, E.; Slovák, V.; Carrasco-Marín, F.; Pérez-Cadenas, A.F. Synthesis of Magnetic Adsorbents Based Carbon Highly Efficient and Stable for Use in the Removal of Pb(II) and Cd(II) in Aqueous Solution. Materials 2021, 14, 6134. https://doi.org/10.3390/ ma14206134
Patrocinador
Junta de Andalucía grant number RNM172 and project reference P18-RTJ-2974Résumé
In this study, two alternative synthesis routes for magnetic adsorbents were evaluated
to remove Pb(II) and Cd(II) in an aqueous solution. First, activated carbon was prepared from
argan shells (C). One portion was doped with magnetite (Fe3O4+C) and the other with cobalt ferrite
(CoFe2O4+C). Characterization studies showed that C has a high surface area (1635 m2 g
−1
) due to the
development of microporosity. For Fe3O4+C the magnetic particles were nano-sized and penetrated
the material’s texture, saturating the micropores. In contrast, CoFe2O4+C conserves the mesoporosity
developed because most of the cobalt ferrite particles adhered to the exposed surface of the material.
The adsorption capacity for Pb(II) was 389 mg g−1
(1.88 mmol g−1
) and 249 mg g−1
(1.20 mmol g−1
);
while for Cd(II) was 269 mg g−1
(2.39 mmol g−1
) and 264 mg g−1
(2.35 mmol g−1
) for the Fe3O4+C
and CoFe2O4+C, respectively. The predominant adsorption mechanism is the interaction between
-FeOH groups with the cations in the solution, which are the main reason these adsorption capacities
remain high in repeated adsorption cycles after regeneration with HNO3
. The results obtained are
superior to studies previously reported in the literature, making these new materials a promising
alternative for large-scale wastewater treatment processes using batch-type reactors.