Chitosan-coated iron oxide nanoparticles obtained by laser pyrolysis

“…22 Additionally, the creation of an iron oxide nanocomposite with high stability is still a difficult problem, particularly for biomedical applications. So far, iron oxide nanoparticles and iron oxide-based materials have been prepared by hydrothermal, 23,24 co-precipitation, 9,25,26 sonochemical, 27,28 laser pyrolysis, 29,30 and electrochemical deposition methods. 31,32 Different magnetic nanoparticles may be created by generating unique morphologies, depending on the synthesis process and factors such as temperature, pressure, reaction time, reagent casting, etc.…”

Preparation of stable Fe₂O₃/Ag nanocomposite particles with catalytic, antioxidant and antibacterial properties

“…22 Additionally, the creation of an iron oxide nanocomposite with high stability is still a difficult problem, particularly for biomedical applications. So far, iron oxide nanoparticles and iron oxide-based materials have been prepared by hydrothermal, 23,24 co-precipitation, 9,25,26 sonochemical, 27,28 laser pyrolysis, 29,30 and electrochemical deposition methods. 31,32 Different magnetic nanoparticles may be created by generating unique morphologies, depending on the synthesis process and factors such as temperature, pressure, reaction time, reagent casting, etc.…”

Preparation of stable Fe₂O₃/Ag nanocomposite particles with catalytic, antioxidant and antibacterial properties

Magnetic-based adsorbing platforms for water and wastewater purification

Catalyzing innovation: Exploring iron oxide nanoparticles - Origins, advancements, and future application horizons