The control of the size of bimagnetic nanoparticles represents an important step toward the study of fundamental properties and the design of new nanostructured magnetic materials. We report the synthesis and the structural and magnetic characterization of bimagnetic CoO/CoFe 2 O 4 core/shell nanoparticles. The material was fabricated by a seed-mediated growth high-temperature decomposition method with sizes in the range of 5–11 nm. We show that the core/shell morphology favours the crystallinity of the shell phase, and the reduction of the particle size leads to a remarkable increase of the magnetic hardening. When the size is reduced, the coercive field at 5 K increases from 21.5 kOe to 30.8 kOe, while the blocking temperature decreases from 388 K to 167 K. The size effects on the magnetic behaviour are described through a phenomenological model for strongly ferri-/antiferromagnetic coupled phases.
Gabriel C Lavorato, Enio Lima Jr, Dina Tobia, Dino Fiorani, Horacio E Troiani, Roberto D Zysler and Elin L Winkler
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Gabriel C Lavorato, Enio Lima Jr, Dina Tobia, Dino Fiorani, Horacio E Troiani, Roberto D Zysler and Elin L Winkler
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