Nanocrystallite interface effect and exchange bias phenomenology in Cr2O3 and NiO nanoparticles

Nanocrystalline Cr2O3 and NiO are prepared using high-energy ball milling. Average sizes of the particles obtained from Scanning Electron Microscopy and crystallite sizes obtained from X-ray diffraction are larger for Cr2O3 than NiO particles. At low temperature, large high-field magnetization and small coercivity lead to a weak exchange bias for Cr2O3, whereas small high-field magnetization and large coercivity lead to a considerable exchange bias for NiO. The training effect is observed for NiO at 4 K which could be described with a recursive formula constructed in the framework of the spin configurational relaxation model. The results suggest that the pinning mechanism at the interface between the antiferromagnetic and the weak ferromagnetic component ascribed to uncompensated spins leads to the exchange bias effect.