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Article Dans Une Revue Journal of Materials Chemistry C Année : 2020

Exchange-bias features in nanoceramics prepared by spark plasma sintering of exchange-biased nanopowders

Nader Yaacoub

Résumé

Conventional methods for sintering magnetic biased granular solids are generally known to induce severe grain growth and coarsening, thus making any evidence of exchange bias (EB) hard to detect in the resulting consolidates. This work explores the possibility of preparing a hetero-nanoconsolidate starting from an exchange-biased nanopowder and using Spark Plasma Sintering (SPS), in order to overcome that microstructural limitation. It also investigates the capability of the resulting solid to establish EB. The nanopowder consists of an intimate nanocrystalline mixture of the antiferromagnetic NiO and ferrimagnetic CoFe2O4 phases. It exhibits a significant broadening of the hysteresis loop at room temperature when measured under field cooling (FC) conditions. X-ray diffraction coupled to high resolution transmission electron microscopy and 57Fe Mössbauer spectrometry shows that sintering induces a drastic atomic diffusion leading to the replacement of the starting NiO and CoFe2O4 phases by their Ni1−xCoxO and Co1−xNixFe2O4 solid solutions (x value close to 0.25). As a result, exchange-bias is hindered at 300 K but always expressed at lower temperatures, far below the Néel temperature of the new antiferromagnet. The maximum EB value for the ceramics is measured at 5 K and is calculated about 48 mT under a cooling magnetic field of 7 T. This value decreases when the temperature increases, but it remains different from zero up to 200 K.
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Dates et versions

hal-02960868 , version 1 (08-10-2020)

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Giulia Franceschin, Thomas Gaudisson, Sonia Perez Quiros, Nader Yaacoub, Jean-Marc Greneche, et al.. Exchange-bias features in nanoceramics prepared by spark plasma sintering of exchange-biased nanopowders. Journal of Materials Chemistry C, 2020, 8 (17), pp.5941-5949. ⟨10.1039/d0tc00428f⟩. ⟨hal-02960868⟩
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