Aerosol Synthesis and Growth Mechanism of Magnetic Iron Nanoparticles

D. Kim; E.S. Vasilieva; A.G. Nasibulin; D.W. Lee; Oleg V. Tolochko; Byoung Kee Kim

doi:10.4028/www.scientific.net/MSF.534-536.9

Paper Titles

Committees

A New General Equation of Mean Particle Size for Different Atomization Processes
p.1

Acid-Insoluble Substances in Reduced Iron Powder from Ores
p.5

Aerosol Synthesis and Growth Mechanism of Magnetic Iron Nanoparticles
p.9

Atomization Using a Pressure-Gas-Atomizer
p.13

Characteristics of (Fe, M)S₂ (M=Co, Ni, Mo) Composite Powders Fabricated by MCP
p.17

Characteristics of Porous YAG Powders Fabricated by PVA Polymer Solution Technique
p.21

Characterization of GaP Nanowires Synthesized by Chemical Vapor Deposition
p.25

Consideration of Fe Nanoparticles and Nanowires Synthesized by Chemical Vapor Condensation Process
p.29

HomeMaterials Science ForumMaterials Science Forum Vols. 534-536Aerosol Synthesis and Growth Mechanism of Magnetic...

Aerosol Synthesis and Growth Mechanism of Magnetic Iron Nanoparticles

Abstract:

Magnetic oxide-coated iron nanoparticles with the mean size ranging from 6 to 75 nm were synthesized by aerosol method using iron carbonyl as a precursor under the flowing inert gas atmosphere. Oxide shells were formed by passivation of as-prepared iron particles. The influence of experimental parameters on the nanoparticles’ microstructure, phase composition and growth behavior as well as magnetic properties were investigated and discussed in this study.