Issue 24, 2021, Issue in Progress

Abundant topological phases in hydrogenated group-IV binary alloy compounds

Abstract

Based on the widely studied two-dimensional layered materials, new materials with unique properties can be acquired by stacking the layered materials with different styles. By using density-functional calculations and symmetry analysis, we here present a route to produce abundant topologically nontrivial electronic states in three-dimensional compounds made of stacked monolayer hydrogenated group-IV binary alloys. Triply degenerate point (TDP) semimetals and Dirac semimetals are found in the hydrogenated SnPb compounds with different stacking configurations. The TDP semimetal is characterized by two sets of near-Dirac TDPs, stemming from the inversion of the s (pz) and px,y bands from the Pb (and also Sn) atoms and protected by a C3v double point group symmetry. Type-I and type-II states, and one essential Dirac semimetal state, coexist in a hydrogenated SnPb compound. Hourglass surface states are also observed in this case. For the hydrogenated GeSn and GePb compounds, normal insulators and weak topological insulators (and also Dirac semimetals) are obtained, respectively. The topological nature of the states is identified by calculations of topological indexes as well as surface states. With these extremely rich topological phases, the studied compounds offer an ideal material platform for realizing topological semimetals and insulators in experiments.

Graphical abstract: Abundant topological phases in hydrogenated group-IV binary alloy compounds

Supplementary files

Article information

Article type
Paper
Submitted
10 Feb 2021
Accepted
31 Mar 2021
First published
16 Apr 2021
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2021,11, 14434-14440

Abundant topological phases in hydrogenated group-IV binary alloy compounds

G. Gao, H. Bao, B. Zhao, H. Huan and Z. Yang, RSC Adv., 2021, 11, 14434 DOI: 10.1039/D1RA01136G

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