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Avramov, P.
Kuzubov, A. A.
Kuklin, A. V.
Hyosun, Lee
Kovaleva, E. A.
Sakai, S.
Entani, S.
Naramoto, H.
Sorokin, P. B.
2018-02-07T07:29:46Z
2018-02-07T07:29:46Z
2017-01
Avramov, P. Theoretical Investigation of the Interfaces and Mechanisms of Induced Spin Polarization of 1D Narrow Zigzag Graphene- and h-BN Nanoribbons on a SrO-Terminated LSMO(001) Surface [Текст] / P. Avramov, A. A. Kuzubov, A. V. Kuklin, Lee Hyosun, E. A. Kovaleva, S. Sakai, S. Entani, H. Naramoto, P. B. Sorokin // Journal of Physical Chemistry A. — 2017. — Т. 121 (№ 3). — С. 680-689
10895639
http://pubs.acs.org/doi/abs/10.1021/acs.jpca.6b09696
http://elib.sfu-kras.ru/handle/2311/69903
The structure of the interfaces and the mechanisms of induced spin polarization of 1D infinite and finite narrow graphene- and h-BN zigzag nanoribbons placed on a SrO-terminated La1-xSrxMnO3 (LSMO) (001) surface were studied using density functional theory (DFT) electronic structure calculations. It was found that the π-conjugated nanofragments are bonded to the LSMO(001) surface by weak disperse interactions. The types of coordination of the fragments, the strength of bonding, and the rate of spin polarization depend upon the nature of the fragments. Infinite and finite graphene narrow zigzag nanoribbons are characterized by the lift of the spin degeneracy and strong spin polarization caused by interface-induced structural asymmetry and oxygen-mediated indirect exchange interactions with Mn ions of LSMO support. Spin polarization changes the semiconducting nature of infinite graphene nanoribbons to half-metallic state with visible spin-up density of states at the Fermi level. The h-BN nanoribbon binding energy is weaker than graphene nanoribbon ones with noticeably shorter interlayer distance. The asymmetry effect and indirect exchange interactions cause spin polarization of h-BN nanoribbon as well with formation of embedded states inside the band gap. The results show a possibility to use one-atom thick nanofragments to design LSMO-based heterostructures for spintronic nanodevices with h-BN as an inert spacer to develop different potential barriers.
Theoretical Investigation of the Interfaces and Mechanisms of Induced Spin Polarization of 1D Narrow Zigzag Graphene- and h-BN Nanoribbons on a SrO-Terminated LSMO(001) Surface
Journal Article
Journal Article Preprint
680-689
29.19.24
2018-02-07T07:29:46Z
10.1021/acs.jpca.6b09696
Научно-исследовательская часть
Journal of Physical Chemistry A
Q1
Q2


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