The exchange bias (EB) effect has been studied in Ni/NiO nanogranular samples obtained by annealing in H2, at selected temperatures (200≤Tann≤300 °C), NiO powder previously milled for 5, 10, 20 and 30 h. Both the as-milled NiO powders and the Ni/NiO samples have been analyzed by X-ray diffraction and the exchange bias properties have been investigated in the 5–200 K temperature range. The structure and the composition of the Ni/NiO samples can be satisfactorily controlled during the synthesis procedure by varying both Tann and the milling time of the precursor NiO powders. In particular, by increasing this last parameter, the mean grain size of the NiO phase reduces down to the final value of 16 nm and the microstrain increases, which is consistent with an enhancement of the structural disorder. The structure of the milled NiO matrix strongly affects the process of nucleation and growth of the Ni nanocrystallites induced by the H2 treatments, so that, Tann being equal, the amount and the mean grain size DNi of the Ni phase vary substantially in samples having different milling times. Such features of the Ni phase determine the extent of the Ni/NiO interface and consequently the magnitude of the exchange field Hex: the highest value (not, vert, similar940 Oe) has been measured at T=5 K in a sample containing not, vert, similar7 wt% Ni and with DNi=19 nm. However, in Ni/NiO samples with very different structural characteristics and different values of Hex at T=5 K, the EB effect vanishes at the same temperature (not, vert, similar200 K) and the same thermal dependence of Hex is observed. We consider that the evolution of the EB effect with temperature is ultimately determined by the microstructure of the Ni/NiO interface, which cannot be substantially modified by changing the synthesis parameters, milling time and Tann.
L. Del Bianco, F. Spizzo, M. Tamisari (2009). Tailoring the exchange bias of Ni/NiO nanogranular samples by the structure control. JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 321, 3071-3076 [10.1016/j.jmmm.2009.05.003].
Tailoring the exchange bias of Ni/NiO nanogranular samples by the structure control
DEL BIANCO, LUCIA;
2009
Abstract
The exchange bias (EB) effect has been studied in Ni/NiO nanogranular samples obtained by annealing in H2, at selected temperatures (200≤Tann≤300 °C), NiO powder previously milled for 5, 10, 20 and 30 h. Both the as-milled NiO powders and the Ni/NiO samples have been analyzed by X-ray diffraction and the exchange bias properties have been investigated in the 5–200 K temperature range. The structure and the composition of the Ni/NiO samples can be satisfactorily controlled during the synthesis procedure by varying both Tann and the milling time of the precursor NiO powders. In particular, by increasing this last parameter, the mean grain size of the NiO phase reduces down to the final value of 16 nm and the microstrain increases, which is consistent with an enhancement of the structural disorder. The structure of the milled NiO matrix strongly affects the process of nucleation and growth of the Ni nanocrystallites induced by the H2 treatments, so that, Tann being equal, the amount and the mean grain size DNi of the Ni phase vary substantially in samples having different milling times. Such features of the Ni phase determine the extent of the Ni/NiO interface and consequently the magnitude of the exchange field Hex: the highest value (not, vert, similar940 Oe) has been measured at T=5 K in a sample containing not, vert, similar7 wt% Ni and with DNi=19 nm. However, in Ni/NiO samples with very different structural characteristics and different values of Hex at T=5 K, the EB effect vanishes at the same temperature (not, vert, similar200 K) and the same thermal dependence of Hex is observed. We consider that the evolution of the EB effect with temperature is ultimately determined by the microstructure of the Ni/NiO interface, which cannot be substantially modified by changing the synthesis parameters, milling time and Tann.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.