Low cost and efficient synthesis of magnetic iron oxide/activated sericite nanocomposites for rapid removal of methylene blue and crystal violet dyes

Abstract: Activated sericite was used as a solid matrix for control over the size of iron oxide nanoparticles (NPs). The activation of sericite was achieved by undergoing thermal, acid and salt treatments. Different weight ratios (w.r.) of iron oxide to activated sericite were prepared by varying the amount of iron oxide. X-ray diffraction (XRD) patterns illustrated a decrease in the intensity of sericite peaks by increasing the amount of iron oxide. High resolution-transmission electron microscopy (HR-TEM) analysis sho… Show more

“…Nano-sized iron and oxides of iron have also been largely used as adsorbents, including in biosorption, wastewater treatment, and bio-applications. 12 The important properties of Fe 3 O 4 NPs include their superparamagnetic property and the fact they retain no residual magnetism after the removal of the magnetic field. Hence, Fe 3 O 4 NPs are more suitable for pollutants removal compared with nonmagnetic NPs.…”

Pharmaceuticals removal by synergistic adsorption and S-scheme photocatalysis using nano-CeO₂-coupled Fe₃O₄ on a CTAB matrix and investigation of the nanocomposite's antibacterial and antibiofilm activities: intrinsic degradation mechanism

“…Nano-sized iron and oxides of iron have also been largely used as adsorbents, including in biosorption, wastewater treatment, and bio-applications. 12 The important properties of Fe 3 O 4 NPs include their superparamagnetic property and the fact they retain no residual magnetism after the removal of the magnetic field. Hence, Fe 3 O 4 NPs are more suitable for pollutants removal compared with nonmagnetic NPs.…”

Pharmaceuticals removal by synergistic adsorption and S-scheme photocatalysis using nano-CeO₂-coupled Fe₃O₄ on a CTAB matrix and investigation of the nanocomposite's antibacterial and antibiofilm activities: intrinsic degradation mechanism

“…Humic acid, coated on the surface of magnetite as a sorbent, is an environmentally friendly material, and the structure of the magnetite core, with a humic acid shell, has better adsorption performance in an acid condition [ 81 ]. Other surface modifiers, such as oleic acid [ 89 ], functionalized chitosan [ 85 , 86 ], polyacrylic acid [ 40 ], lignosulfonate [ 84 ], and activated sericite clay [ 98 ], to some extent, could enhance the dispersion of magnetic nanocomposites, because they are widely spaced. In this way, the size of the nanocomposites can be controlled on a small scale, lower than 10 nm.…”

Magnetic Adsorbents for Wastewater Treatment: Advancements in Their Synthesis Methods

“…Humic acid, coated on the surface of magnetite as a sorbent, is an environmentally friendly material, and the structure of the magnetite core, with a humic acid shell, has better adsorption performance in an acid condition [81]. Other surface modifiers, such as oleic acid [89], functionalized chitosan [85,86], polyacrylic acid [40], lignosulfonate [84], and activated sericite clay [98], to some extent, could enhance the dispersion of magnetic nanocomposites, because they are widely spaced. In this way, the size of the nanocomposites can be controlled on a small scale, lower than 10 nm.…”

Advanced Materials for Societal Implementation