Optical Properties of Fe₃O₄Thin Films Prepared from the Iron Sand by Spin Coating Method

“…Magnetite features have high Curie temperature (TC~850K), high magnetic moment, semi-metallic, and non-toxic [6,7]. Several techniques exist to prepare Fe3O4 thin films, such as pulsed laser deposition, spraying, gel solution [4], molecular beam epitaxy, sputtering, metalorganic chemical vapor deposition, solid reaction [8], Screen printing, and Coating method (spin coating) [9]. The pulsed laser deposition technique is widely used to fabricate Fe3O4 thin films, and the final properties of the prepared samples can be tuned by altering the experimental parameters.…”

“…The thin film is a nanometer-sized material created by arranging and incorporating atomic properties. The optical properties of thin films are heavily influenced by the energy gap that depends on the properties of the thin film material to be deposited [9].…”

The Structural and Optical Properties of Nanocrystalline Fe3O4 Thin Films Prepared by PLD

“…Magnetite features have high Curie temperature (TC~850K), high magnetic moment, semi-metallic, and non-toxic [6,7]. Several techniques exist to prepare Fe3O4 thin films, such as pulsed laser deposition, spraying, gel solution [4], molecular beam epitaxy, sputtering, metalorganic chemical vapor deposition, solid reaction [8], Screen printing, and Coating method (spin coating) [9]. The pulsed laser deposition technique is widely used to fabricate Fe3O4 thin films, and the final properties of the prepared samples can be tuned by altering the experimental parameters.…”

“…The thin film is a nanometer-sized material created by arranging and incorporating atomic properties. The optical properties of thin films are heavily influenced by the energy gap that depends on the properties of the thin film material to be deposited [9].…”

The Structural and Optical Properties of Nanocrystalline Fe3O4 Thin Films Prepared by PLD

Structural, mechanical and magnetic properties of PVA-PVP: iron oxide nanocomposite

Preparation and characterization of Fe3O4 nanoparticles for nitrogen dioxide sensing