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Giant magnetoresistance and spin Seebeck coefficient in zigzag a-graphyne nanoribbons

We investigate the spin-dependent electric and thermoelectric properties of ferromagnetic zigzag-graphyne nanoribbons (ZGNRs) using the density-functional theory combined with the non-equilibrium Green's function method. A giant magnetoresistance is obtained in the pristine even-width ZGNRs and can be as high as 10e6 %. However, for the doped systems, a large magnetoresistance behavior may appear in the odd-width ZGNRs rather than the even-width ones. This suggests that the magnetoresistance can be manipulated in a wide range by the dopants on edges of ZGNRs. Another interesting phenomenon is that in the B- and N-doped even-width ZGNRs the spin Seebeck coefficient is always larger than the charge Seebeck coefficient, and a pure-spin-current thermospin device can be achieved at specific temperatures.

preprint2014arXivOpen access
M. X. ZhaiX. F. WangP. VasilopoulosY. S. LiuY. J. DongL. ZhouY. J. JiangW. L. You
cond-mat.mes-hallcond-mat.mtrl-sci
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M. X. ZhaiX. F. WangP. VasilopoulosY. S. LiuY. J. DongL. ZhouY. J. JiangW. L. You

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