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石墨烯纳米带器件中巨磁阻值的预测。

Prediction of very large values of magnetoresistance in a graphene nanoribbon device.

作者信息

Kim Woo Youn, Kim Kwang S

出版信息

Nat Nanotechnol. 2008 Jul;3(7):408-12. doi: 10.1038/nnano.2008.163. Epub 2008 Jun 15.

Abstract

Graphene has emerged as a versatile material with outstanding electronic properties that could prove useful in many device applications. Recently, the demonstration of spin injection into graphene and the observation of long spin relaxation times and lengths have suggested that graphene could play a role in 'spintronic' devices that manipulate electron spin rather than charge. In particular it has been found that zigzag graphene nanoribbons have magnetic (or spin) states at their edges, and that these states can be either antiparallel or parallel. Here we report the results of first-principles simulations that predict that spin-valve devices based on graphene nanoribbons will exhibit magnetoresistance values that are thousands of times higher than previously reported experimental values. These remarkable values can be linked to the unique symmetry of the band structure in the nanoribbons. We also show that it is possible to manipulate the band structure of the nanoribbons to generate highly spin-polarized currents.

摘要

石墨烯已成为一种具有出色电子特性的多功能材料,在许多器件应用中可能会很有用。最近,向石墨烯中注入自旋以及观察到长的自旋弛豫时间和长度,这表明石墨烯可能在操纵电子自旋而非电荷的“自旋电子”器件中发挥作用。特别地,已发现锯齿形石墨烯纳米带在其边缘具有磁性(或自旋)态,并且这些态可以是反平行或平行的。在此,我们报告第一性原理模拟的结果,该模拟预测基于石墨烯纳米带的自旋阀器件将表现出比先前报道的实验值高数千倍的磁电阻值。这些显著的值可与纳米带中能带结构的独特对称性相关联。我们还表明,可以操纵纳米带的能带结构以产生高度自旋极化的电流。

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