Oxidation-controlled magnetism and Verwey transition in Fe/Fe3O4 lamellae
The structural and magnetic properties of Fe/Fe3O4 nanocomposites, synthesized by combined high energy ball milling and controlled oxidation, have been studied. An X-ray diffraction analysis of the crystal structure of the nanocomposites confirmed the coexistence of Fe and Fe3O4 phases. An increas...
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oai:112.137.131.14:VNU_123-893122020-07-30T08:15:42Z Oxidation-controlled magnetism and Verwey transition in Fe/Fe3O4 lamellae Do, Hung Manh Le, Thi Hong Nguyen, Xuan Phuc Pham, Hong Nam Ngo, Thi Hong Nguyen, Trung Hieu Pham, Thanh Phong Phan, Manh Huong Kovac, Jozef Skorvanek, Ivan Lamellar structure Fe/Fe3O4 nanocomposites Oxidation-controlled magnetism Verwey phase transition Modified Bloch law The structural and magnetic properties of Fe/Fe3O4 nanocomposites, synthesized by combined high energy ball milling and controlled oxidation, have been studied. An X-ray diffraction analysis of the crystal structure of the nanocomposites confirmed the coexistence of Fe and Fe3O4 phases. An increase of the oxygen concentration during oxidation process led to the formation of a higher fraction of the Fe3O4 phase with good crystallinity and stoichiometry. The morphology of the nanocomposites revealed a lamella-like structure with a thickness of about 30 nm. The saturation magnetization decreased when the phase fraction of Fe3O4 increased. The coercivity was enhanced at low temperatures ( 100 K) but decreased at high temperatures, due to thermal fluctuation effects on the anisotropy in the Fe3O4 phase. Interestingly, the lamellae exhibited a sharp Verwey transition near 120 K, which is often suppressed or absent in nanostructured Fe3O4 due to the poorly crystalline, off-stoichiometric characteristic. The temperature dependence of high-field magnetization of the lamellae is analyzed by the modified Bloch law. Our study demonstrates the possibility of tuning the magnetism in iron/iron oxide nanosystems through controlled oxidation. 2020-07-30T08:15:41Z 2020-07-30T08:15:41Z 2020 Article Do, H. M., et al. (2020). Oxidation-controlled magnetism and Verwey transition in Fe/Fe3O4 lamellae. Journal of Science: Advanced Materials and Devices 5 (2020) 263-269. 2468-2179 http://repository.vnu.edu.vn/handle/VNU_123/89312 https://doi.org/10.1016/j.jsamd.2020.04.001 en Journal of Science: Advanced Materials and Devices; application/pdf H. : ĐHQGHN |
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Lamellar structure Fe/Fe3O4 nanocomposites Oxidation-controlled magnetism Verwey phase transition Modified Bloch law |
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Lamellar structure Fe/Fe3O4 nanocomposites Oxidation-controlled magnetism Verwey phase transition Modified Bloch law Do, Hung Manh Le, Thi Hong Nguyen, Xuan Phuc Pham, Hong Nam Ngo, Thi Hong Nguyen, Trung Hieu Pham, Thanh Phong Phan, Manh Huong Kovac, Jozef Skorvanek, Ivan Oxidation-controlled magnetism and Verwey transition in Fe/Fe3O4 lamellae |
| description |
The structural and magnetic properties of Fe/Fe3O4 nanocomposites, synthesized by combined high
energy ball milling and controlled oxidation, have been studied. An X-ray diffraction analysis of the
crystal structure of the nanocomposites confirmed the coexistence of Fe and Fe3O4 phases. An increase of
the oxygen concentration during oxidation process led to the formation of a higher fraction of the Fe3O4
phase with good crystallinity and stoichiometry. The morphology of the nanocomposites revealed a
lamella-like structure with a thickness of about 30 nm. The saturation magnetization decreased when
the phase fraction of Fe3O4 increased. The coercivity was enhanced at low temperatures ( 100 K) but
decreased at high temperatures, due to thermal fluctuation effects on the anisotropy in the Fe3O4 phase.
Interestingly, the lamellae exhibited a sharp Verwey transition near 120 K, which is often suppressed or
absent in nanostructured Fe3O4 due to the poorly crystalline, off-stoichiometric characteristic. The
temperature dependence of high-field magnetization of the lamellae is analyzed by the modified Bloch
law. Our study demonstrates the possibility of tuning the magnetism in iron/iron oxide nanosystems
through controlled oxidation. |
| format |
Article |
| author |
Do, Hung Manh Le, Thi Hong Nguyen, Xuan Phuc Pham, Hong Nam Ngo, Thi Hong Nguyen, Trung Hieu Pham, Thanh Phong Phan, Manh Huong Kovac, Jozef Skorvanek, Ivan |
| author_facet |
Do, Hung Manh Le, Thi Hong Nguyen, Xuan Phuc Pham, Hong Nam Ngo, Thi Hong Nguyen, Trung Hieu Pham, Thanh Phong Phan, Manh Huong Kovac, Jozef Skorvanek, Ivan |
| author_sort |
Do, Hung Manh |
| title |
Oxidation-controlled magnetism and Verwey transition in Fe/Fe3O4 lamellae |
| title_short |
Oxidation-controlled magnetism and Verwey transition in Fe/Fe3O4 lamellae |
| title_full |
Oxidation-controlled magnetism and Verwey transition in Fe/Fe3O4 lamellae |
| title_fullStr |
Oxidation-controlled magnetism and Verwey transition in Fe/Fe3O4 lamellae |
| title_full_unstemmed |
Oxidation-controlled magnetism and Verwey transition in Fe/Fe3O4 lamellae |
| title_sort |
oxidation-controlled magnetism and verwey transition in fe/fe3o4 lamellae |
| publisher |
H. : ĐHQGHN |
| publishDate |
2020 |
| url |
http://repository.vnu.edu.vn/handle/VNU_123/89312 https://doi.org/10.1016/j.jsamd.2020.04.001 |
| _version_ |
1680963122423136256 |