Title :
Effect of Frequency and Field Amplitude in Magnetic Hyperthermia
Author :
Roca, A.G. ; Wiese, B. ; Timmis, J. ; Vallejo-Fernandez, G. ; O´Grady, K.
Author_Institution :
Dept. of Phys., Univ. of York, York, UK
Abstract :
We have undertaken studies of the heating rate in three sets of magnetic nanoparticles for their application in magnetic hyperthermia. The nanoparticles were magnetite-maghemite with average particle diameters of 5, 28, and 45 nm, respectively. All samples were synthesized in an aqueous media and have a narrow size distribution. These sizes represent particles which are single domain, particles which lie close to the single domain multi-domain boundary, and particles which are probably multidomain. The heating rate is greater for the largest particles when an alternating magnetic field of 250 Oe and a frequency of 110 kHz are applied. The significant increase in heating for the 45 nm particles suggests that heating may be associated with particle rotation.
Keywords :
biomagnetism; hyperthermia; iron compounds; magnetic domain walls; magnetic particles; nanofabrication; nanomagnetics; nanomedicine; nanoparticles; particle size; Fe3O4-Fe2O3; alternating magnetic ήeld; aqueous media; field amplitude effect; frequency 110 kHz; frequency effect; heating rate; magnetic hyperthermia; magnetic nanoparticles; magnetite-maghemite nanoparticles; narrow size distribution; particle rotation; particle size; single domain-multidomain boundary; size 45 nm; Heating; Hyperthermia; Magnetic domains; Magnetic hysteresis; Magnetic resonance; Materials; Nanoparticles; Domain wall motion; heating mechanisms; hyperthermia; magnetic nanoparticles;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2012.2201459
