Suppression and enhancement of the ferromagnetic response in Fe-doped ZnO nanoparticles by calcination of organic nitrogen, phosphorus, and sulfur compounds
The current study reports on the preparation of ~10–13 nm ZnO nanoparticles homogeneously doped with Fe 2+ ions ((Zn 0.97 Fe 0.03 )O) and the manipulation of their ferromagnetic response at room temperature with an appropriate post-processing. The homogeneous spatial distribution of iron is studied...
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| Published in | Journal of nanoparticle research : an interdisciplinary forum for nanoscale science and technology Vol. 15; no. 12; pp. 1 - 10 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Dordrecht
Springer Netherlands
01.12.2013
Springer Springer Nature B.V |
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| Abstract | The current study reports on the preparation of ~10–13 nm ZnO nanoparticles homogeneously doped with Fe
2+
ions ((Zn
0.97
Fe
0.03
)O) and the manipulation of their ferromagnetic response at room temperature with an appropriate post-processing. The homogeneous spatial distribution of iron is studied at atomic column level through high-resolution transmission electron microscopy, high-angle annular dark field, and electron energy loss spectroscopy. Magnetization isotherms show a ferromagnetic feature within the low field region exhibiting temperature dependence. X-ray diffraction and analytical microscopy measurements are compatible with a homogeneous distribution of Fe
2+
over the ZnO lattice, and discard the formation of iron or iron oxide clusters that could account for the low field ferromagnetic signal. From the temperature dependence of the susceptibility, it is inferred that Fe
2+
cations do not order magnetically. Induced defects upon calcination of different organic molecules over the (Zn
0.97
Fe
0.03
)O nanoparticles in aerobic conditions lead to a significant modification of the magnetic properties, even suppressing the room temperature ferromagnetic signal originally observed. More specifically, when the heat treatment is carried out in the presence of dodecylamine, the original room temperature ferromagnetic signal is canceled, whereas an enhancement on the same ferromagnetic contribution is observed when using trioctylphosphine oxide. No significant differences have been found after calcinating 1-dodecanethiol-doped ZnO nanoparticles. |
|---|---|
| AbstractList | The current study reports on the preparation of ~10-13 nm ZnO nanoparticles homogeneously doped with Fe super(2+) ions ((Zn sub(0.97)Fe sub(0.03))O) and the manipulation of their ferromagnetic response at room temperature with an appropriate post-processing. The homogeneous spatial distribution of iron is studied at atomic column level through high-resolution transmission electron microscopy, high-angle annular dark field, and electron energy loss spectroscopy. Magnetization isotherms show a ferromagnetic feature within the low field region exhibiting temperature dependence. X-ray diffraction and analytical microscopy measurements are compatible with a homogeneous distribution of Fe super(2+) over the ZnO lattice, and discard the formation of iron or iron oxide clusters that could account for the low field ferromagnetic signal. From the temperature dependence of the susceptibility, it is inferred that Fe super(2+) cations do not order magnetically. Induced defects upon calcination of different organic molecules over the (Zn sub(0.97)Fe sub(0.03))O nanoparticles in aerobic conditions lead to a significant modification of the magnetic properties, even suppressing the room temperature ferromagnetic signal originally observed. More specifically, when the heat treatment is carried out in the presence of dodecylamine, the original room temperature ferromagnetic signal is canceled, whereas an enhancement on the same ferromagnetic contribution is observed when using trioctylphosphine oxide. No significant differences have been found after calcinating 1-dodecanethiol-doped ZnO nanoparticles. The current study reports on the preparation of ~10–13 nm ZnO nanoparticles homogeneously doped with Fe 2+ ions ((Zn 0.97 Fe 0.03 )O) and the manipulation of their ferromagnetic response at room temperature with an appropriate post-processing. The homogeneous spatial distribution of iron is studied at atomic column level through high-resolution transmission electron microscopy, high-angle annular dark field, and electron energy loss spectroscopy. Magnetization isotherms show a ferromagnetic feature within the low field region exhibiting temperature dependence. X-ray diffraction and analytical microscopy measurements are compatible with a homogeneous distribution of Fe 2+ over the ZnO lattice, and discard the formation of iron or iron oxide clusters that could account for the low field ferromagnetic signal. From the temperature dependence of the susceptibility, it is inferred that Fe 2+ cations do not order magnetically. Induced defects upon calcination of different organic molecules over the (Zn 0.97 Fe 0.03 )O nanoparticles in aerobic conditions lead to a significant modification of the magnetic properties, even suppressing the room temperature ferromagnetic signal originally observed. More specifically, when the heat treatment is carried out in the presence of dodecylamine, the original room temperature ferromagnetic signal is canceled, whereas an enhancement on the same ferromagnetic contribution is observed when using trioctylphosphine oxide. No significant differences have been found after calcinating 1-dodecanethiol-doped ZnO nanoparticles. The current study reports on the preparation of ~10-13 nm ZnO nanoparticles homogeneously doped with Fe^sup 2+^ ions ((Zn^sub 0.97^Fe^sub 0.03^)O) and the manipulation of their ferromagnetic response at room temperature with an appropriate post-processing. The homogeneous spatial distribution of iron is studied at atomic column level through high-resolution transmission electron microscopy, high-angle annular dark field, and electron energy loss spectroscopy. Magnetization isotherms show a ferromagnetic feature within the low field region exhibiting temperature dependence. X-ray diffraction and analytical microscopy measurements are compatible with a homogeneous distribution of Fe^sup 2+^ over the ZnO lattice, and discard the formation of iron or iron oxide clusters that could account for the low field ferromagnetic signal. From the temperature dependence of the susceptibility, it is inferred that Fe^sup 2+^ cations do not order magnetically. Induced defects upon calcination of different organic molecules over the (Zn^sub 0.97^Fe^sub 0.03^)O nanoparticles in aerobic conditions lead to a significant modification of the magnetic properties, even suppressing the room temperature ferromagnetic signal originally observed. More specifically, when the heat treatment is carried out in the presence of dodecylamine, the original room temperature ferromagnetic signal is canceled, whereas an enhancement on the same ferromagnetic contribution is observed when using trioctylphosphine oxide. No significant differences have been found after calcinating 1-dodecanethiol-doped ZnO nanoparticles.[PUBLICATION ABSTRACT] |
| ArticleNumber | 2120 |
| Author | Blanco-Andujar, C. Ortega, D. Hernández-Garrido, J. C. Garitaonandia, J. S. |
| Author_xml | – sequence: 1 givenname: D. surname: Ortega fullname: Ortega, D. email: daniel.ortega@imdea.org organization: Instituto Madrileño de Estudios Avanzados en Nanociencia (IMDEA-Nanociencia), Institute of Biomedical Engineering, University College London – sequence: 2 givenname: J. C. surname: Hernández-Garrido fullname: Hernández-Garrido, J. C. organization: Departamento de Ciencia de los Materiales e Ingeniería Metalúrgica y Química Inorgánica, Facultad de Ciencias, Universidad de Cádiz – sequence: 3 givenname: C. surname: Blanco-Andujar fullname: Blanco-Andujar, C. organization: Department of Physics and Astronomy, University College London – sequence: 4 givenname: J. S. surname: Garitaonandia fullname: Garitaonandia, J. S. organization: Zientzia eta Teknologia Fakultatea, Euskal Herriko Unibertsitatea |
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| Cites_doi | 10.1126/science.1056186 10.1109/TMAG.2010.2041910 10.1088/1367-2630/12/5/053025 10.1063/1.3136904 10.1021/nl070198m 10.1038/nphys551 10.1038/nnano.2009.181 10.1021/jp211523f 10.1126/science.309.5731.75 10.1016/j.cossms.2006.12.002 10.1103/PhysRevB.82.054419 10.1103/PhysRevB.85.012407 10.1021/jp400429s 10.1063/1.1525885 10.1016/j.mser.2008.04.002 10.1002/smll.201100963 10.1126/science.287.5455.1019 10.1021/ja050723o 10.1063/1.3475724 10.1002/pssb.200844272 10.1088/0022-3727/42/1/013001 10.3938/jkps.58.472 10.1063/1.3294613 10.1063/1.3254224 10.1063/1.1506402 10.1021/nn901503q 10.1038/nmat1686 10.1021/ja048427j 10.1016/0031-8914(73)90314-5 10.1021/ja036811v 10.1002/adma.200903891 10.1063/1.2167638 10.1063/1.3294620 10.3938/jkps.53.196 10.1063/1.3677674 |
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| Keywords | Nanoparticles Zinc oxide Ferromagnetism Nanostructure processing Diluted magnetic oxides Temperature dependence Iron oxide Magnetization Doping Ferromagnetic materials Phosphorus Iron XRD Nanostructures Low field Heat treatments Transmission electron microscopy Spatial distribution EEL spectroscopy Organic molecule Iron additions Nanostructured materials Magnetic properties |
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| Snippet | The current study reports on the preparation of ~10–13 nm ZnO nanoparticles homogeneously doped with Fe
2+
ions ((Zn
0.97
Fe
0.03
)O) and the manipulation of... The current study reports on the preparation of ~10-13 nm ZnO nanoparticles homogeneously doped with Fe^sup 2+^ ions ((Zn^sub 0.97^Fe^sub 0.03^)O) and the... The current study reports on the preparation of ~10-13 nm ZnO nanoparticles homogeneously doped with Fe super(2+) ions ((Zn sub(0.97)Fe sub(0.03))O) and the... |
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| Title | Suppression and enhancement of the ferromagnetic response in Fe-doped ZnO nanoparticles by calcination of organic nitrogen, phosphorus, and sulfur compounds |
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