Simultaneous removal of heavy metals and dyes in water using a MgO-coated Fe3O4 nanocomposite: Role of micro-mixing effect induced by bubble generation

This study focused on the development of a nano-adsorbent for contaminant removal without the use of any external energy. An eco-friendly Fe3O4@MgO core-shell nanocomposite was synthesized and tested for the removal of a heavy metal, lead (Pb2+) and a dye, rhodamine B (RhB). The addition of H2O2 int...

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Veröffentlicht in:	Chemosphere (Oxford) 2022-05, Vol.294, p.133788-133788, Article 133788
Hauptverfasser:	Rayaroth, Manoj P., Oh, Dasom, Lee, Chung-Seop, Chang, Yoon-Seok
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Sprache:	eng
Schlagworte:	Adsorption Bubble generation Dyes Fe3O4@MgO Heavy metals Water treatment
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creator	Rayaroth, Manoj P. Oh, Dasom Lee, Chung-Seop Chang, Yoon-Seok
description	This study focused on the development of a nano-adsorbent for contaminant removal without the use of any external energy. An eco-friendly Fe3O4@MgO core-shell nanocomposite was synthesized and tested for the removal of a heavy metal, lead (Pb2+) and a dye, rhodamine B (RhB). The addition of H2O2 into the system enabled the self-mixing of the aqueous solution containing Fe3O4@MgO through the generation of bubbles. This system showed an excellent removal efficiency of 99% in just 15 min for Pb2+ and 120 min for RhB, which is far better than the control experiment (without H2O2). The cation exchange mechanism dominated in the removal of heavy metals, while the adsorptive removal of dye proceeded through the H-bonding between Mg(OH)2 and dye molecules. The removal efficiency increased exponentially with the increase of H2O2 at the optimal concentration of 5% and it was effective over a wide pH range. Moreover, the performance of the Fe3O4@MgO–H2O2 system was verified for other heavy metals such as Cd, Ni, Zn, Co, and Cu, demonstrating that the Fe3O4@MgO–H2O2 system can be widely implemented in the treatment of real water matrices contaminated with heavy metals and organic dyes. [Display omitted] •Heavy metal (Pb2+) and organic dye (Rhodamine B) removal with H2O2 addition to the solution containing Fe3O4@MgO.•Pollutants are removed by the adsorption mechanism.•The bubble propulsion and self-mixing process enhanced the removal efficiency.•Fe3O4@MgO is efficient in environmentally relevant water matrices like ground and river water.
doi_str_mv	10.1016/j.chemosphere.2022.133788
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An eco-friendly Fe3O4@MgO core-shell nanocomposite was synthesized and tested for the removal of a heavy metal, lead (Pb2+) and a dye, rhodamine B (RhB). The addition of H2O2 into the system enabled the self-mixing of the aqueous solution containing Fe3O4@MgO through the generation of bubbles. This system showed an excellent removal efficiency of 99% in just 15 min for Pb2+ and 120 min for RhB, which is far better than the control experiment (without H2O2). The cation exchange mechanism dominated in the removal of heavy metals, while the adsorptive removal of dye proceeded through the H-bonding between Mg(OH)2 and dye molecules. The removal efficiency increased exponentially with the increase of H2O2 at the optimal concentration of 5% and it was effective over a wide pH range. 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subjects	Adsorption Bubble generation Dyes Fe3O4@MgO Heavy metals Water treatment
title	Simultaneous removal of heavy metals and dyes in water using a MgO-coated Fe3O4 nanocomposite: Role of micro-mixing effect induced by bubble generation
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