Magnetic Exchange Coupling and Anisotropy of 3d Transition Metal Nanowires on Graphyne

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作者
Junjie He
Pan Zhou
N. Jiao
S. Y. Ma
K. W. Zhang
R. Z. Wang
L. Z. Sun
机构
[1] Key Laboratory of Low-dimensional Materials and Application Technology,Department of Physics
[2] Xiangtan University,undefined
[3] Xiangtan University,undefined
[4] College of Materials Science and Engineering,undefined
[5] Beijing University of Technology,undefined
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Scientific Reports | / 4卷
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摘要
Applying two-dimensional monolayer materials in nanoelectronics and spintronics is hindered by a lack of ordered and separately distributed spin structures. We investigate the electronic and magnetic properties of one-dimensional zigzag and armchair 3d transition metal (TM) nanowires on graphyne (GY), using density functional theory plus Hubbard U (DFT + U). The 3d TM nanowires are formed on graphyne (GY) surfaces. TM atoms separately and regularly embed within GY, achieving long-range magnetic spin ordering. TM exchange coupling of the zigzag and armchair nanowires is mediated by sp-hybridized carbon and results in long-range magnetic order and magnetic anisotropy. The magnetic coupling mechanism is explained by competition between through-bond and through-space interactions derived from superexchange. These results aid the realization of GY in spintronics.
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