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Spin Transport Modulation of 2D Fe3O4 Nanosheets Driven by Verwey Phase Transition
https://orcid.org/0000-0002-8201-7644
https://orcid.org/0000-0003-2141-4803
AbstractRealizing spin transport between heavy metal and two‐dimensional (2D) magnetic materials at high Curie temperature (TC) is crucial to advanced spintronic information storage technology. Here, environmentally stable 2D nonlayered Fe3O4 nanosheets are successfully synthesized using a reproducible process and found that they exhibit vortex magnetic domains at room temperature. A Verwey phase transition temperature (TV) of ≈110 K is identified for ≈3 nm thick nanosheet through Raman characterization and spin Hall device measurement of the Pt/Fe3O4 bilayer. The anisotropic magnetoresistance ratio decreases near TV, while both the spin Hall magnetoresistance ratio and spin mixing conductance (Gr) increase at TV. As the temperature approaches 112 K, the anomalous Hall effect ratio tends to become zero. The maximum Gr reaches ≈5 × 1015 Ω−1m−2 due to the clean and flat interface between Pt and 2D nanosheet. The observed spin transport behavior in Pt/Fe3O4 spin Hall devices indicates that 2D Fe3O4 nanosheets possess potential for high‐power micro spintronic storage devices applications.
Spin Transport Modulation of 2D Fe3O4 Nanosheets Driven by Verwey Phase Transition
https://orcid.org/0000-0002-8201-7644
https://orcid.org/0000-0003-2141-4803
AbstractRealizing spin transport between heavy metal and two‐dimensional (2D) magnetic materials at high Curie temperature (TC) is crucial to advanced spintronic information storage technology. Here, environmentally stable 2D nonlayered Fe3O4 nanosheets are successfully synthesized using a reproducible process and found that they exhibit vortex magnetic domains at room temperature. A Verwey phase transition temperature (TV) of ≈110 K is identified for ≈3 nm thick nanosheet through Raman characterization and spin Hall device measurement of the Pt/Fe3O4 bilayer. The anisotropic magnetoresistance ratio decreases near TV, while both the spin Hall magnetoresistance ratio and spin mixing conductance (Gr) increase at TV. As the temperature approaches 112 K, the anomalous Hall effect ratio tends to become zero. The maximum Gr reaches ≈5 × 1015 Ω−1m−2 due to the clean and flat interface between Pt and 2D nanosheet. The observed spin transport behavior in Pt/Fe3O4 spin Hall devices indicates that 2D Fe3O4 nanosheets possess potential for high‐power micro spintronic storage devices applications.
Spin Transport Modulation of 2D Fe3O4 Nanosheets Driven by Verwey Phase Transition
https://orcid.org/0000-0002-8201-7644
https://orcid.org/0000-0003-2141-4803
AbstractRealizing spin transport between heavy metal and two‐dimensional (2D) magnetic materials at high Curie temperature (TC) is crucial to advanced spintronic information storage technology. Here, environmentally stable 2D nonlayered Fe3O4 nanosheets are successfully synthesized using a reproducible process and found that they exhibit vortex magnetic domains at room temperature. A Verwey phase transition temperature (TV) of ≈110 K is identified for ≈3 nm thick nanosheet through Raman characterization and spin Hall device measurement of the Pt/Fe3O4 bilayer. The anisotropic magnetoresistance ratio decreases near TV, while both the spin Hall magnetoresistance ratio and spin mixing conductance (Gr) increase at TV. As the temperature approaches 112 K, the anomalous Hall effect ratio tends to become zero. The maximum Gr reaches ≈5 × 1015 Ω−1m−2 due to the clean and flat interface between Pt and 2D nanosheet. The observed spin transport behavior in Pt/Fe3O4 spin Hall devices indicates that 2D Fe3O4 nanosheets possess potential for high‐power micro spintronic storage devices applications.
Spin Transport Modulation of 2D Fe3O4 Nanosheets Driven by Verwey Phase Transition
Advanced Science
Jia, Zhiyan (author) / Zhao, Mengfan (author) / Chen, Qian (author) / Sun, Rong (author) / Cao, Lulu (author) / Ye, Kun (author) / Zhu, Tao (author) / Liu, Lixuan (author) / Tian, Yuxin (author) / Wang, Yi (author)
Advanced Science ; 11
2024-11-01
Article (Journal)
Electronic Resource
English
Spin Transport Modulation of 2D Fe3O4 Nanosheets Driven by Verwey Phase Transition
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