Abstract
Adsorption media of hybrid composites is a promising candidate to eliminate the toxic contaminants from an aqueous environment, and good regeneration ability has received considerable interest to be utilized in water and wastewater treatment. Herein, we synthesized Fe3O4 anchored polyaniline intercalated graphene oxide (Fe3O4x%-PANI@GO, where x = 10, 20 and 50% of Fe3O4 particles) hybrid composites by co-precipitation and modified Hummers’ method, followed by in-situ polymerization. The as-synthesized Fe3O4x%-PANI@GO acts as a potential host in welcoming the guest ions such as anionic contaminants with different interactions in this work. Besides, the advantages of easy separation by the external magnetic field, the Fe3O4x%-PANI@GO hybrid composite also achieve a great adsorption efficiency of 143.54 and 135.67 mg/g for Cr(VI) and phosphate ions, respectively, than the other adsorbents reported in the literature. The as-synthesized adsorbents were characterized by different analytical techniques and influencing parameters such as contact time, co-existing anions, solution pH, adsorption isotherms, and kinetics were studied in detail. The adsorption system of Fe3O450%-PANI@GO hybrid composite follows the Langmuir isotherm and pseudo-second-order kinetic model for the elimination of Cr(VI) and phosphate ions from aqueous solutions. The feasible removal mechanism of Cr(VI) and phosphate ions was explored by FTIR and XPS techniques for anionic pollutants. Moreover, the selectivity and recyclability tests showed that the Fe3O450%-PANI@GO hybrid composites demonstrated a high adsorption capacity towards the anionic ions from the aqueous environment. Therefore, the present investigation suggested that the Fe3O450%-PANI@GO hybrid composites is an effective adsorbent for the elimination of Cr(VI) and phosphate ions from wastewater.
•Fe3O4x%-Pani@GO for the adsorption of Cr(VI) and phosphate ions has been reviewed.•The anionic mechanism on Fe3O4x%-Pani@GO was elucidated via XPS and FTIR studies.•Electrostatic attraction was reported as a major force in this work.•After adsorption, material was easily separated by the external magnetic field.