Nanomaterials (Mar 2018)

Tunable Electronic and Topological Properties of Germanene by Functional Group Modification

  • Ceng-Ceng Ren,
  • Shu-Feng Zhang,
  • Wei-Xiao Ji,
  • Chang-Wen Zhang,
  • Ping Li,
  • Pei-Ji Wang

DOI
https://doi.org/10.3390/nano8030145
Journal volume & issue
Vol. 8, no. 3
p. 145

Abstract

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Electronic and topological properties of two-dimensional germanene modified by functional group X (X = H, F, OH, CH3) at full coverage are studied with first-principles calculation. Without considering the effect of spin-orbit coupling (SOC), all functionalized configurations become semiconductors, removing the Dirac cone at K point in pristine germanene. We also find that their band gaps can be especially well tuned by an external strain. When the SOC is switched on, GeX (X = H, CH3) is a normal insulator and strain leads to a phase transition to a topological insulator (TI) phase. However, GeX (X = F, OH) becomes a TI with a large gap of 0.19 eV for X = F and 0.24 eV for X = OH, even without external strains. More interestingly, when all these functionalized monolayers form a bilayer structure, semiconductor-metal states are observed. All these results suggest a possible route of modulating the electronic properties of germanene and promote applications in nanoelectronics.

Keywords