A promising electrodeposited iron oxide nanoparticles of very high saturation magnetization and superparamagnetic properties for remediation of polluted water with lead ions

“…All these factors have an effect on the shape, morphology, and size of the electrodeposited material [ 157 , 158 ]. For instance, the effect of deposition potential (−1.15, −1.20, −1.25, and −1.30 V) on the shape, size and magnetic properties of iron oxide film deposited onto a copper electrode was studied by Elrouby et al [ 159 ] using a deposition bath containing 0.12 M Fe 3+ and 0.2 M triethanolamine in presence of 2 M sodium hydroxide (at a pH of 13.5) at a temperature of 50 °C. Their results indicated that particle size (4–19 nm) and saturation magnetization (214–283 emu/g) increased with increase in the applied negative potential.…”

Electrochemical sensors modified with iron oxide nanoparticles/nanocomposites for voltammetric detection of Pb (II) in water: A review

“…All these factors have an effect on the shape, morphology, and size of the electrodeposited material [ 157 , 158 ]. For instance, the effect of deposition potential (−1.15, −1.20, −1.25, and −1.30 V) on the shape, size and magnetic properties of iron oxide film deposited onto a copper electrode was studied by Elrouby et al [ 159 ] using a deposition bath containing 0.12 M Fe 3+ and 0.2 M triethanolamine in presence of 2 M sodium hydroxide (at a pH of 13.5) at a temperature of 50 °C. Their results indicated that particle size (4–19 nm) and saturation magnetization (214–283 emu/g) increased with increase in the applied negative potential.…”

Electrochemical sensors modified with iron oxide nanoparticles/nanocomposites for voltammetric detection of Pb (II) in water: A review

Mathematical Modeling of Reactor for Water Remediation

Heavy Metal Removal from Wastewater Using Adsorbents