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| - Colloidal Nanocrystals of Wurtzite Zn1−xCoxO (0 ≤ x ≤ 1): Models of Spinodal Decomposition in an Oxide Diluted Magnetic Semiconductor
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| - Magnetic-ion-rich nanoscale inclusions formed by spinodal decomposition have been observed in many diluted magnetic semiconductors and have recently been implicated in the ferromagnetic ordering observed in some of these materials. In this study, colloidal nanocrystals of the ternary alloy wurtzite Zn1−xCoxO, with x ranging from 0.0 (w-ZnO) to 1.0 (w-CoO), have been synthesized as model systems for the proposed spinodal decomposition nanostrucures of ferromagnetic Zn1−xCoxO thin films and powders. As free-standing nanocrystals, these phases do not show any signs of ferromagnetism or superparamagnetism at any value of x. Changes in the electronic absorption and magnetic circular dichroism (MCD) spectra with x are described that should allow optical identification of spinodal decomposition in other Zn1−xCoxO samples. Optical and magneto-optical spectroscopic results are presented for the end member of this series (w-CoO), apparently for the first time, and show this binary oxide to be an indirect gap charge-transfer insulator with Eg ≈ 2.3 eV.
- The magnetic and electronic stuctural properties of freestanding Zn1−xCoxO nanocrystals with (0 ≤ x ≤ 1) are studied to model the spinodal decompoition phase in this material. The lack of cooperative magnetism from any sample indicates that spinodal decomposition alone is not responsible for the magnetism seen in literature.
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| - Colloidal Nanocrystals of Wurtzite Zn1−xCoxO
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