Tuning the magnetic properties of self-assembled BiFeOCoFeO heteroepitaxy by magneto-structural coupling
Magnetic and multiferroic nanocomposites with two distinct phases have been a topic of intense research for their profound potential applications in the field of spintronics. In addition to growing high-quality phase separated heteroepitaxial nanocomposites, the strain engineering that is conducive...
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| Veröffentlicht in: | Nanoscale 2016-04, Vol.8 (16), p.8847-8854 |
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| creator | Amrillah, Tahta Vandrangi, Suresh K Bitla, Yugandhar Do, Thi Hien Liao, Sheng-Chieh Tsai, Chih-Ya Chin, Yi-Ying Liu, Yen-Ting Lin, Man-Ling He, Qing Lin, Hong-Ji Lee, Hsin-Yi Lai, Chih-Huang Arenholz, Elke Juang, Jenh-Yih Chu, Ying-Hao |
| description | Magnetic and multiferroic nanocomposites with two distinct phases have been a topic of intense research for their profound potential applications in the field of spintronics. In addition to growing high-quality phase separated heteroepitaxial nanocomposites, the strain engineering that is conducive to enhance the tunability of material properties, in general, and the magnetic properties, in particular, is of utmost importance in exploring new possibilities. Here, we investigated the magneto-structural coupling between antiferromagnetic BiFeO
3
(BFO) and ferrimagnetic CoFe
2
O
4
(CFO) in self-assembled vertically aligned nanocomposites grown on LaAlO
3
(LAO) and SrTiO
3
(STO) substrates. We found that BFO exhibits tetragonal (T) and rhombohedral (R) structures as the stable phases and CFO has high magnetocrystalline anisotropy even in the form of nanocomposites. The temperature and magnetic field dependent magnetizations of T_BFOCFO/LAO and R_BFOCFO/STO nanocomposites primarily demonstrate the magnetoelastic coupling between these variants.
Magnetic-multiferroic nanocomposites have been a topic of intense research for potential spintronic applications. |
| doi_str_mv | 10.1039/c5nr09269h |
| format | Article |
| fullrecord | <record><control><sourceid>rsc</sourceid><recordid>TN_cdi_rsc_primary_c5nr09269h</recordid><sourceformat>XML</sourceformat><sourcesystem>PC</sourcesystem><sourcerecordid>c5nr09269h</sourcerecordid><originalsourceid>FETCH-rsc_primary_c5nr09269h3</originalsourceid><addsrcrecordid>eNqFjj8LwjAUxIMo-HdxF94XqMZGK10Vxc3FXWJ8tZG0Ce-lYL-9DqKjy93BD-5OiOlSzpdS5QuzrknmaZaXHTFI5UomSm3S7jdnq74YMj-kzHKVqYEoz01t6zvEEqHS9xqjNRDIB6RokcEXwOiKRDNjdXV4g6094Gnn3wIlRiSPwUb9bOHafhp8wpEaExvSDoxvgnsvjEWv0I5x8vGRmB32590xITaXQLbS1F5-99U__gJ7g0rY</addsrcrecordid><sourcetype>Publisher</sourcetype><iscdi>true</iscdi><recordtype>article</recordtype></control><display><type>article</type><title>Tuning the magnetic properties of self-assembled BiFeOCoFeO heteroepitaxy by magneto-structural coupling</title><source>Royal Society Of Chemistry Journals 2008-</source><source>Alma/SFX Local Collection</source><creator>Amrillah, Tahta ; Vandrangi, Suresh K ; Bitla, Yugandhar ; Do, Thi Hien ; Liao, Sheng-Chieh ; Tsai, Chih-Ya ; Chin, Yi-Ying ; Liu, Yen-Ting ; Lin, Man-Ling ; He, Qing ; Lin, Hong-Ji ; Lee, Hsin-Yi ; Lai, Chih-Huang ; Arenholz, Elke ; Juang, Jenh-Yih ; Chu, Ying-Hao</creator><creatorcontrib>Amrillah, Tahta ; Vandrangi, Suresh K ; Bitla, Yugandhar ; Do, Thi Hien ; Liao, Sheng-Chieh ; Tsai, Chih-Ya ; Chin, Yi-Ying ; Liu, Yen-Ting ; Lin, Man-Ling ; He, Qing ; Lin, Hong-Ji ; Lee, Hsin-Yi ; Lai, Chih-Huang ; Arenholz, Elke ; Juang, Jenh-Yih ; Chu, Ying-Hao</creatorcontrib><description>Magnetic and multiferroic nanocomposites with two distinct phases have been a topic of intense research for their profound potential applications in the field of spintronics. In addition to growing high-quality phase separated heteroepitaxial nanocomposites, the strain engineering that is conducive to enhance the tunability of material properties, in general, and the magnetic properties, in particular, is of utmost importance in exploring new possibilities. Here, we investigated the magneto-structural coupling between antiferromagnetic BiFeO
3
(BFO) and ferrimagnetic CoFe
2
O
4
(CFO) in self-assembled vertically aligned nanocomposites grown on LaAlO
3
(LAO) and SrTiO
3
(STO) substrates. We found that BFO exhibits tetragonal (T) and rhombohedral (R) structures as the stable phases and CFO has high magnetocrystalline anisotropy even in the form of nanocomposites. The temperature and magnetic field dependent magnetizations of T_BFOCFO/LAO and R_BFOCFO/STO nanocomposites primarily demonstrate the magnetoelastic coupling between these variants.
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3
(BFO) and ferrimagnetic CoFe
2
O
4
(CFO) in self-assembled vertically aligned nanocomposites grown on LaAlO
3
(LAO) and SrTiO
3
(STO) substrates. We found that BFO exhibits tetragonal (T) and rhombohedral (R) structures as the stable phases and CFO has high magnetocrystalline anisotropy even in the form of nanocomposites. The temperature and magnetic field dependent magnetizations of T_BFOCFO/LAO and R_BFOCFO/STO nanocomposites primarily demonstrate the magnetoelastic coupling between these variants.
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3
(BFO) and ferrimagnetic CoFe
2
O
4
(CFO) in self-assembled vertically aligned nanocomposites grown on LaAlO
3
(LAO) and SrTiO
3
(STO) substrates. We found that BFO exhibits tetragonal (T) and rhombohedral (R) structures as the stable phases and CFO has high magnetocrystalline anisotropy even in the form of nanocomposites. The temperature and magnetic field dependent magnetizations of T_BFOCFO/LAO and R_BFOCFO/STO nanocomposites primarily demonstrate the magnetoelastic coupling between these variants.
Magnetic-multiferroic nanocomposites have been a topic of intense research for potential spintronic applications.</abstract><doi>10.1039/c5nr09269h</doi><tpages>8</tpages></addata></record> |
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| title | Tuning the magnetic properties of self-assembled BiFeOCoFeO heteroepitaxy by magneto-structural coupling |
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