Microstructural and Magnetic Investigations of Wüstite-Spinel Core-Shell Cubic-Shaped Nanoparticles

Microstructural and Magnetic Investigations of Wüstite-Spinel Core-Shell Cubic-Shaped Nanoparticles

Most studies on the synthesis of nanoparticles are currently focused on the controlled synthesis of new morphologies, including core-shell structures, which are expected to exhibit new magnetic properties for uses in spintronics and recording media applications. In this study, the structure, morphol...

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Bibliographic Details
Published in:Chemistry of materials Vol. 23; no. 11; pp. 2886 - 2900
Main Authors: Pichon, Benoit P., Gerber, Olivier, Lefevre, Christophe, Florea, Ileana, Fleutot, Solenne, Baaziz, Walid, Pauly, Matthias, Ohlmann, Maxime, Ulhaq, Corinne, Ersen, Ovidiu, Pierron-Bohnes, Véronique, Panissod, Pierre, Drillon, Marc, Begin-Colin, Sylvie
Format: Journal Article
Language:English
Published: American Chemical Society 14-06-2011
Subjects:
Chemical Sciences
Inorganic chemistry
Material chemistry
exchange bias coupling
magnetic properties
iron oxide nanoparticles
electron holography
oxidation mechanisms
electron tomography
cubic-shaped nanoparticles
core-shell nanoparticles
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Summary:Most studies on the synthesis of nanoparticles are currently focused on the controlled synthesis of new morphologies, including core-shell structures, which are expected to exhibit new magnetic properties for uses in spintronics and recording media applications. In this study, the structure, morphology, and composition of cubic-shaped nanoparticles are carefully investigated and compared to those of spherically shaped nanoparticles through the use of a combination of techniques: X-ray diffraction (XRD) and transmission electronic microscopy (TEM) combined with more sensitive techniques such as scanning transmission electron microscopy-high-angle annular dark field (STEM-HAADF) imaging, electron tomography, and holography. While spherically shaped nanoparticles (NPs) crystallize with the spinel structure, cubic-shaped NPs can be described as a cubic core of wüstite surrounded by a spinel shell. Stresses are observed at the core-shell interface and within the spinel shell due to the epitaxial growth and oxidation mechanisms of the wüstite phase. Furthermore, magnetic measurements displayed an exchange bias coupling between the antiferromagnetic (AFM) core and the ferrimagnetic (FIM) shell structure of cubic-shaped nanoparticles. It is shown that the magnetic properties are influenced by stresses generated by the oxidation of wüstite and, also exhibit variations depending upon the evolution of this core-shell structure as a function of the oxidation time.
ISSN:0897-4756
1520-5002
DOI:10.1021/cm2003319