Issue 29, 2022

Structural engineering brings new electronic properties to Janus ZrSSe and HfSSe monolayers

Abstract

Interfacing effects within emergent two-dimensional (2D) materials are of fundamental interest and are at the center of applications in nanoelectronics. Thus, out-of-plane and in-plane heterostructures as well as electronic heterostructures with phase boundaries and large-angle (60°) grain boundaries (GBs) of Janus ZrSSe and HfSSe are studied in this work using first-principles calculations. The out-of-plane heterostructures of T-ZrSSe and T-HfSSe illustrate quite weak interfacing interactions, thus the electronic properties are, unusually, more like the superposition of individual monolayers. The in-plane heterostructures of T-ZrSSe and T-HfSSe, interestingly, exhibit an indirect–direct band gap transition and type-II band alignment, which correspond to boosted optical properties and spatially separated excitons. For the in-plane electronic heterostructures that are constituted by T-ZrSSe and H-ZrSSe, semiconductor–metal crossover occurs due to the polar discontinuity across the T–H phase boundary, and they behave as one-dimensional metallic wires embedded in otherwise semiconducting Janus ZrSSe, creating a one-dimensional electron/hole gas. This also indicates a strategy for stabilizing the unstable and/or metastable monolayer via the phase boundary. As a result of the zero formal bulk polarization of the T-phase ZrSSe, the metallicity of 60° GBs originates mainly from the edge atoms rather than from the polar discontinuity.

Graphical abstract: Structural engineering brings new electronic properties to Janus ZrSSe and HfSSe monolayers

Supplementary files

Article information

Article type
Paper
Submitted
27 Apr 2022
Accepted
08 Jul 2022
First published
08 Jul 2022

Phys. Chem. Chem. Phys., 2022,24, 17824-17831

Structural engineering brings new electronic properties to Janus ZrSSe and HfSSe monolayers

X. Wang, S. Zhang, Y. Wang, S. Yu, B. Huang, Y. Dai and W. Wei, Phys. Chem. Chem. Phys., 2022, 24, 17824 DOI: 10.1039/D2CP01928K

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