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Article Dans Une Revue Chemistry of Materials Année : 2015

Systematic Study of Exchange Coupling in Core–Shell Fe 3−δ O 4 @CoO Nanoparticles

Résumé

Although single magnetic domain nanoparticles are very promising for many applications, size reduction usually results in low magnetic anisotropy and unblocked domain at room temperature, e.g., superparamagnetism. An alternative approach is core–shell nanoparticles featured by exchange bias coupling between ferro(i)magnetic [F(i)M] and antiferromagnetic (AFM) phases. Although exchange bias coupling has been reported for very diverse core–shell nanoparticles, it is difficult to compare these studies to rationalize the effect of many structural parameters on the magnetic properties. Herein, we report on a systematic study which consists of the modulation of the shell structure and its influence on the exchange bias coupling. A series of Fe3−δO4@CoO core–shell nanoparticles has been synthesized by seed-mediated growth based on the thermal decomposition technique. The variation of Co reactant concentration resulted in the modulation of the shell structure for which thickness, crystallinity, and interface with the iron oxide core strongly affect the magnetic properties. The thickest CoO shell and the largest F(i)M/AFM interface led to the largest exchange bias coupling. Very high values of coercive field (19 000 Oe) and MR/MS ratio (0.86) were obtained. The most stricking results consist of the increase of the coercive field while exchange field vanishes when the CoO thickness decreases: it is ascribed to the diffusion of Co species in the surface layer of iron oxide which generates to some extent cobalt ferrite and induces hard/soft exchange coupling between ferrimagnetic phases.
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Dates et versions

hal-02269434 , version 1 (22-08-2019)

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Xiaojie Liu, Benoit P. Pichon, Corinne Ulhaq, Christophe Lefevre, Jean-Marc Greneche, et al.. Systematic Study of Exchange Coupling in Core–Shell Fe 3−δ O 4 @CoO Nanoparticles. Chemistry of Materials, 2015, 27 (11), pp.4073-4081. ⟨10.1021/acs.chemmater.5b01103⟩. ⟨hal-02269434⟩
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