Size Dependence of Alternating Current Magnetically-Induced Heating Characteristics of Ferrimagnetic MgFe2O4 Nanoparticles in Powder and Fluidic States

Authors
Lee, SanghoonJeun, Minhong
Issue Date
2017-05
Publisher
AMER SCIENTIFIC PUBLISHERS
Citation
SCIENCE OF ADVANCED MATERIALS, v.9, no.5, pp.804 - 809
Abstract
The alternating current (AC) magnetically-induced heating characteristics of MgFe2O4 ferrimagnetic nanoparticles (FMNPs) are investigated in both powder and ferrofluidic states for efficient hyperthermia agent applications. To obtain MgFe2O4 FMNPs with different sizes and size distributions, a ball milling process (ball diameters: 3 mm and 5 mm) is carried out within the framework of a modified sol-gel method. The MgFe2O4 FMNPs formed with 3 mm-ball milling process possess the smallest particle size and narrowest size distribution. These FMNPs provide the lowest AC magnetically induced heating temperature (T-AC,T- mag, Delta T = 65 degrees C) in powder state. However, they generate the highest T-AC,T- mag(Delta T = 5.1 degrees C) and specific loss power (SLP, 525 W/g) in fluidic state at a low frequency (f(appl) = 110 kHz) and a magnetic field (H-appl = 140 Oe). It is also observed that the hysteresis loss and relaxation loss are crucial parameters that dictate the heating mechanism of FMNPs in ferrofluids. These losses depend on the coating conditions and dipole interaction, which in turn are closely related to the particle's size and its distribution. In addition, it is determined that the weaker magnetic dipole interaction in the ferrofluid FMNPs enhance the relaxation loss and hysteresis loss, leading to an improvement of the AC heat generation characteristics.
Keywords
SUPERPARAMAGNETIC NANOPARTICLES; FERRITE NANOPARTICLES; DRUG-DELIVERY; HYPERTHERMIA; PARTICLES; THERAPY; FIELD; MgFe2O4; Ferrimagnetic Nanoparticles; Magnetic Dipolar Interaction; Sol-Gel Synthesis; Hyperthermia
ISSN
1947-2935
URI
https://pubs.kist.re.kr/handle/201004/122766
DOI
10.1166/sam.2017.2948
Appears in Collections:
KIST Article > 2017
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