Abstract
Semiconductors with native ferromagnetism barely exist and defined nanostructures are almost unknown. This lack impedes the exploration of a new class of materials characterized by a direct combination of effects on the electronic system caused by quantum confinement effects with magnetism. A good example is EuO for which currently no reliable routes for nanoparticle synthesis can be established. Bottom-up approaches applicable to other oxides fail because of the labile oxidation state +II. Instead of targeting a direct synthesis, the two steps—"structure control" and "chemical transformation"—are separated. The generation of a transitional, hybrid nanophase is followed by its conversion into EuO under full conservation of all morphological features. Hierarchical EuO materials are now accessible in the shape of oriented nanodisks stacked to tubular particles. Magnetically, the coupling of either vortex or onion states has been found. An unexpected temperature dependence is governed by thermally activated transitions between these states.
Access to nanostructures of the ferromagnetic semiconductor Eu(II)O is achieved by a two-step strategy. The synthesis of hierarchical nanotubes of an Eu2O3-organic nanohybrid is followed by conversion to EuO under full conservation of all structural features and shape. Herein, magnetic property correlations are revealed.
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