Abstract
The exchange bias (EB) effect has been studied in Ni/NiO nanogranular samples obtained by annealing in H2, at different temperatures (200 ⩽ Tann ⩽ 300 °C), NiO powder previously ball-milled for 20 h. Typically, the samples consist of Ni nanoparticles (mean size of 10–18 nm) embedded in a nanocrystalline NiO matrix. With increasing Tann, the Ni fraction varies from 4% up to 69%. The exchange field depends on the Ni amount, being maximum (∼600 Oe), at T = 5 K, in the sample with 15% Ni. In all the samples, the EB effect vanishes at T = 200 K. The structural features of the samples have been investigated by x-ray diffraction, electron microscopy and extended x-ray absorption fine structure and the low-temperature magneto-thermal behaviour has been thoroughly analyzed. The results show the existence of a structurally and magnetically disordered NiO component, which plays the key role in the EB mechanism.
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