Large-gap quantum spin Hall state in functionalized dumbbell stanene

Two-dimensional dumbbell (DB) stanene has been proposed as a promising candidate material for realizing quantum spin Hall effect (QSHE) by Tang et al. [Phys. Rev. B 90, 121408 (2014)]. However, the small bulk-gap limits its possible applications at room temperature. Based on firstprinciples calculations, we predict that its band gap can be enhanced to 148 meV under methylfunctionalization, which can be further tuned by applying lattice strain. The QSHE is confirmed by s-p(x, y) band inversion, topological invariant Z(2) = 1, and helical gapless edge within bulk band gap. Notably, the characteristic properties of edge states, such as the large Fermi velocity and Dirac cone, can be modulated by edge modification. The effects of substrates on topological properties are explored when it is grown on various substrates, like SiC, h-BN, and Bi2Te3 sheets. These findings provide significant guidance for future fabrication and realistic applications of QSHE based on stanene in spintronics. (C) 2016 AIP Publishing LLC.