Band Gap on/off Switching of Silicene Superlattice

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• 作者：Tian-Tian Jia ; Meng-Meng Zheng ; Xin-Yu Fan ; Yan Su ; Shu-Juan Li ; Hai-Ying Liu ; Gang Chen ; Yoshiyuki Kawazoe
• 刊名：Journal of Physical Chemistry C
• 出版年：2015
• 出版时间：September 3, 2015
• 年：2015
• 卷：119
• 期：35
• 页码：20747-20754
• 全文大小：731K
• ISSN：1932-7455

文摘

On the basis of density functional theory calculations with generalized gradient approximation, we have investigated in detail the cooperative effects of uniaxial strain and degenerate perturbation on manipulating the band gap in silicene. The uniaxial strain would split 蟺 bands into 蟺_a and 蟺_z bands, resulting in Dirac cone movement. Then, the hexagonal antidot would split 蟺_a (蟺_z) bands into 蟺_a1 and 蟺_a2 (蟺_z1 and 蟺_z2) bands, accounting for the band gap opening in the superlattices with the Dirac cone being folded to the 螕 point, which is a different mechanism as compared to the sublattice equivalence breaking. The energy interval between the split 蟺_a and 蟺_z bands could be tuned to switch band gap on and off, suggesting a reversible switch between the high charge carrier velocity properties of massless Fermions attributed to the linear energy dispersion relation around the Dirac point and the high on/off properties associated with a sizable band gap. In addition, the gap width could be continuously tuned by manipulating strain, resulting in fascinating application potentials.