Gas phase synthesis of fcc-cobalt nanoparticles
- 28 March 2006
- journal article
- research article
- Published by Royal Society of Chemistry (RSC) in Journal of Materials Chemistry
- Vol. 16 (19) , 1825-1830
- https://doi.org/10.1039/b601013j
Abstract
Air stable cobalt nanoparticles have been prepared continuously at a production rate of 30 g h−1 by a modified flame synthesis method under highly reducing conditions. Nanoparticles of 20–60 nm in diameter consisted of metallic face-centered-cubic cobalt. The metal particles were protected against oxidation by a surface layer of less than 1 nm of cobalt oxide. The material was highly magnetic exhibiting a high saturation magnetisation (>124 emu g−1) together with a low (<100 Oe) coercivity. Experiments under varying fuel to oxygen ratio were combined with thermodynamic calculations to illustrate the necessity for highly reducing conditions and enhanced gas mixing to enable the formation of metallic cobalt nanoparticles in flames.Keywords
This publication has 57 references indexed in Scilit:
- Synthesis of nano-sized Fe–Co alloy powders by chemical solution mixing of metal salts and hydrogen reduction (CSM-HR)Materials Letters, 2005
- Enhanced Chemical Ordering and Coercivity in FePt Alloy Nanoparticles by Sb‐DopingAdvanced Materials, 2005
- Ductile‐to‐Brittle Transition in Nanocrystalline MetalsAdvanced Materials, 2005
- Bimetallic nano-particles: featuring structure and reactivityCatalysis Today, 2005
- Recent developments in high-moment electroplated materials for recording headsIBM Journal of Research and Development, 2005
- 50 nm Hall Sensors for Room Temperature Scanning Hall Probe MicroscopyJapanese Journal of Applied Physics, 2004
- The Impact of Nanoscience on Heterogeneous CatalysisScience, 2003
- Quantum limit of magnetic recording densityApplied Physics Letters, 2001
- Molecular Rulers for Scaling Down NanostructuresScience, 2001
- Preparation and Magnetic Properties of Colloidal Cobalt ParticlesJournal of Applied Physics, 1966