Title :
Cobalt-ferrite nanoparticles: correlations between synthesis procedures, structural characteristics and magnetic properties
Author :
Li, Sichu ; Liu, Limin ; John, Vijay T. ; O´Connor, C.J. ; Harris, Vincent G.
Author_Institution :
Dept. of Chem. Eng., Tulane Univ., New Orleans, LA, USA
fDate :
7/1/2001 12:00:00 AM
Abstract :
Cobalt-ferrite nanoparticles of size 10 to 15 nm have been synthesized in water-in-oil microemulsions (i.e., reverse micelles). When the Co2+/Fe2+ molar ratio in the precursor solution reaches 1:1 and above, the resultant oxides are identified as having the cobalt ferrite structure. By increasing the Co2+/Fe2+ molar ratio in the precursor from 1:1 to 2:1, the atomic ratio of Co:Fe in the resultant ferrite increases from 0.83 to 1.31. The Co site occupancy is also dependent on the Co2+ /Fe2+ molar ratio in the precursor. The materials are found to exhibit superparamagnetism. The blocking temperatures and coercivities are dependent upon the Co2+/Fe3+ ratio, reaching values as high as 55 K and 7500 G at 10 K, respectively. The correlation between synthesis procedure, site occupancy and magnetic properties enables the control of materials properties through such synthesis
Keywords :
cobalt compounds; coercive force; colloids; crystal structure; ferrites; magnetic particles; materials preparation; microemulsions; nanostructured materials; particle size; stoichiometry; superparamagnetism; 10 K; 10 to 15 nm; 55 K; 7500 G; Co site occupancy; Co2+/Fe2+ molar ratio; CoFe2O4; blocking temperatures; cobalt ferrite structure; cobalt-ferrite nanoparticles; coercivities; magnetic properties; nanoparticles of size; precursor solution; reverse micelles; structural characteristics; superparamagnetism; synthesis procedures; water-in-oil microemulsions; Chemical analysis; Cobalt; Coercive force; Ferrites; Iron; Magnetic materials; Magnetic properties; Nanoparticles; Shape control; Temperature dependence;
Journal_Title :
Magnetics, IEEE Transactions on
