Preparation and application of a magnetic composite (Mn3O4/Fe3O4) for removal of As(III) from aqueous solutions
TLDR
In this paper, a magnetic composite was synthesized through the precipitation of manganese oxide in the presence of magnetite particles using O2 as an oxidant, which proved to be chemically and physically stable within a wide range of pH values.Abstract:
The introduction of magnetic properties in adsorbent materials has the aim of improving solid-liquid separation processes. In this work, a magnetic composite was synthesized through the precipitation of manganese oxide in the presence of magnetite particles using O2 as an oxidant. The composite proved to be chemically and physically stable within a wide range of pH values. The composite characterization indicated that hausmannite (Mn3O4) represents the precipitated manganese phase and that magnetite undergoes no phase transformation during the synthesis. The composite and Mn3O4 particles were used to remove As(III) from aqueous solutions. The magnetic composite and Mn3O4 sample presented high and similar affinity for As(III), with maximum sorptive capacities of 14 mgAs gsolid-1 (0.0048 mmolAs m-2solid) and 20 mgAs gsolid-1 (0.0049 mmolAs m-2solid), respectively, at pH 5.0. The combination of an active high surface area sorbent (Mn3O4) with a magnetic phase (Fe3O4) allows for efficient As(III) removal and solid/liquid separation.read more
Citations
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Magnetic materials as sorbents for metal/metalloid preconcentration and/or separation. A review.
TL;DR: All recent progress in the research of novel magnetic materials as sorbents for metal preconcentration and determination coupled with different detection systems as well as their implementation in sequential injection and microfluidic systems are provided.
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Recent progress and future challenges on the use of high performance magnetic nano-adsorbents in environmental applications
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Efficient removal of trace arsenite through oxidation and adsorption by magnetic nanoparticles modified with Fe-Mn binary oxide.
Chao Shan,Meiping Tong +1 more
TL;DR: Magnetic nanoparticles modified simultaneously with amorphous Fe and Mn oxides (Mag-Fe-Mn) were synthesized to remove arsenite [As(III)] from water and provided a convenient approach to efficiently remove trace As(III) from water.
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Rational surface modification of Mn3O4 nanoparticles to induce multiple photoluminescence and room temperature ferromagnetism
Anupam Giri,Nirmal Goswami,Monalisa Pal,Myo Tay Zar Myint,Salim Al-Harthi,Achintya Singha,Barnali Ghosh,Joydeep Dutta,Samir Kumar Pal +8 more
TL;DR: In this article, surface modification can have a significant influence on the materials behavior at the nanoscale and can lead to nanostructures with novel properties, and the authors demonstrate the surface modification in terms of surface properties.
References
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TL;DR: Using the high specific surface area of Fe3O4 NCs that were 12 nanometers in diameter, the mass of waste associated with arsenic removal from water was reduced by orders of magnitude and the size dependence of magnetic separation permitted mixtures of 4- and 12-nanometer–sized Fe3Os to be separated by the application of different magnetic fields.
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