Journal
NANOMATERIALS
Volume 10, Issue 5, Pages -Publisher
MDPI
DOI: 10.3390/nano10050867
Keywords
maghemite; pair distribution function; disordered magnetism; X-ray absorption spectroscopy; molecular dynamics; finite size effects
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Here we report on the impact of reducing the crystalline size on the structural and magnetic properties of gamma-Fe2O3 maghemite nanoparticles. A set of polycrystalline specimens with crystallite size ranging from similar to 2 to similar to 50 nm was obtained combining microwave plasma synthesis and commercial samples. Crystallite size was derived by electron microscopy and synchrotron powder diffraction, which was used also to investigate the crystallographic structure. The local atomic structure was inquired combining pair distribution function (PDF) and X-ray absorption spectroscopy (XAS). PDF revealed that reducing the crystal dimension induces the depletion of the amount of Fe tetrahedral sites. XAS confirmed significant bond distance expansion and a loose Fe-Fe connectivity between octahedral and tetrahedral sites. Molecular dynamics revealed important surface effects, whose implementation in PDF reproduces the first shells of experimental curves. The structural disorder affects the magnetic properties more and more with decreasing the nanoparticle size. In particular, the saturation magnetization reduces, revealing a spin canting effect. Moreover, a large effective magnetic anisotropy is measured at low temperature together with an exchange bias effect, a behavior that we related to the existence of a highly disordered glassy magnetic phase.
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