应变诱导的类狄拉克锥状电子结构和石墨炔中的半导体-金属转变。

Strain-induced Dirac cone-like electronic structures and semiconductor-semimetal transition in graphdiyne.

机构信息

School of Physics, University of Chinese Academy of Sciences, P. O. Box 4588, Beijing 100049, China.

出版信息

Phys Chem Chem Phys. 2013 Jun 7;15(21):8179-85. doi: 10.1039/c3cp44457k. Epub 2013 Apr 22.

Abstract

By means of first-principles calculations combined with the tight-binding approximation, the strain-induced semiconductor-semimetal transition in graphdiyne is discovered. It is shown that the band gap of graphdiyne increases from 0.47 eV to 1.39 eV with increasing the biaxial tensile strain, while the band gap decreases from 0.47 eV to nearly zero with increasing the uniaxial tensile strain, and Dirac cone-like electronic structures are observed. The uniaxial strain-induced changes of the electronic structures of graphdiyne come from the breaking of geometrical symmetry that lifts the degeneracy of energy bands. The properties of graphdiyne under strains are found to differ remarkably from that of graphene.

摘要

通过第一性原理计算结合紧束缚近似，发现了石墨炔中的应变诱导半导体-金属转变。结果表明，随着双轴拉伸应变的增加，石墨炔的带隙从 0.47eV 增加到 1.39eV，而随着单轴拉伸应变的增加，带隙从 0.47eV 减小到几乎为零，并观察到类狄拉克锥形电子结构。单轴应变诱导的石墨炔电子结构的变化源于打破了能带简并的几何对称性。应变下石墨炔的性质与石墨烯显著不同。

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应变诱导的类狄拉克锥状电子结构和石墨炔中的半导体-金属转变。

Strain-induced Dirac cone-like electronic structures and semiconductor-semimetal transition in graphdiyne.

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