Predicting two-dimensional topological phases in Janus materials by substitutional doping in transition metal dichalcogenide monolayers

Creator

Aniceto B. Maghirang, National Sun Yat-Sen University Taiwan
Zhi Quan Huang, National Sun Yat-Sen University Taiwan
Rovi Angelo B. Villaos, National Sun Yat-Sen University Taiwan
Chia Hsiu Hsu, National Sun Yat-Sen University Taiwan
Liang Ying Feng, National Sun Yat-Sen University Taiwan
Emmanuel Florido, University of the Philippines Los Banos
Hsin Lin, Academia Sinica, Institute Of Physics
Arun Bansil, Northeastern University
Feng Chuan Chuang, National Sun Yat-Sen University Taiwan

Abstract

© 2019, The Author(s). Ultrathin Janus two-dimensional (2D) materials are attracting intense interest currently. Substitutional doping of 2D transition metal dichalcogenides (TMDs) is of importance for tuning and possible enhancement of their electronic, physical and chemical properties toward industrial applications. Using systematic first-principles computations, we propose a class of Janus 2D materials based on the monolayers MX2 (M = V, Nb, Ta, Tc, or Re; X = S, Se, or Te) with halogen (F, Cl, Br, or I) or pnictogen (N, P, As, Sb, or Bi) substitution. Nontrivial phases are obtained on pnictogen substitution of group VB (V, Nb, or Ta), whereas for group VIIB (Tc or Re), the nontrivial phases are obtained for halogen substitution. Orbital analysis shows that the nontrivial phase is driven by the splitting of M-dyz and M-dxz orbitals. Our study demonstrates that the Janus 2D materials have the tunability and suitability for synthesis under various conditions.

Source or Periodical Title

npj 2D Materials and Applications

Document Type

Article

Recommended Citation

Maghirang, Aniceto B.; Huang, Zhi Quan; Villaos, Rovi Angelo B.; Hsu, Chia Hsiu; Feng, Liang Ying; Florido, Emmanuel; Lin, Hsin; Bansil, Arun; and Chuang, Feng Chuan, "Predicting two-dimensional topological phases in Janus materials by substitutional doping in transition metal dichalcogenide monolayers" (2021). Journal Article. 602.
https://www.ukdr.uplb.edu.ph/journal-articles/602