Superparamagnetic response of zinc ferrite incrusted nanoparticles

Abstract Zinc ferrite is synthesized via mechano-activation, followed by thermal treatment. Spinel ZnFe 2 O 4 single phase is confirmed by X-ray diffraction. SEM micrographs show large particles with average particle size 〈 D part 〉 = 1 μm, with particles in intimate contact. However, TEM micrographs show incrusted nanocrystallites at the particles surface, with average nanocrystallite size calculated as 〈 D inc 〉 ≈ 5 nm. The blocking temperature at 118 K in the ZFC–FC curves indicates the presence of a superparamagnetic response which is attributable to the incrusted nanocrystallites. Moreover, the hysteresis loops show the coexistence of superpara- and paramagnetic responses. The former is observable at the low field region; meanwhile, the second one is responsible of the lack of saturation at high field region. This last behavior is related to a paramagnetic contribution coming from well-ordered crystalline microdomains. The hysteresis loops are analyzed by means of two different models. The first one is the susceptibility model used to examine separately the para- and superparamagnetic contributions. The fittings with the theoretical model confirm the presence of the above mentioned magnetic contributions. Finally, using the Langevin-based model, the average superparamagnetic diameter 〈 D SPM 〉 is calculated. The obtained value 〈 D SPM 〉 = 4.7 nm (∼5 nm) is consistent with the average nanocrystallite size observed by TEM.