Superparamagnetism and magnetic properties of Ni nanoparticles embedded in SiO2 -: art. no. 104406

We have performed a detailed characterization of the magnetic properties of Ni nanoparticles embedded in a SiO2 amorphous matrix. A modified sol-gel method was employed which resulted in Ni particles with average radius similar to3 nm, as inferred by TEM analysis. Above the blocking temperature T(B)approximate to20 K for the most diluted sample, magnetization data show the expected scaling of the M/M-S vs H/T curves for superparamagnetic particles. The hysteresis loops were found to be symmetric about zero field axis with no shift via exchange bias, suggesting that Ni particles are free from an oxide layer. For T<T-B the magnetic behavior of these Ni nanoparticles is in excellent agreement with the predictions of randomly oriented and noninteracting magnetic particles, as suggested by the temperature dependence of the coercivity field that obeys the relation H-C(T)=H-C0[1-(T/T-B)(1/2)] below T-B with H(C0)similar to780 Oe. The obtained values of H-C0, considering the temperature dependence of the magnetic anisotropy constant, are discussed within the scenario of isolated randomly oriented and noninteracting single-domain particles.