Issue 38, 2019

Chemical functionalization of the ZnO monolayer: structural and electronic properties

Abstract

Two-dimensional zinc oxide (ZnO) materials have been extensively investigated both experimentally and theoretically due to their novel properties and promising applications in optoelectronic and spintronic devices; however, how to tune the electronic property of the ZnO monolayer is still a challenge. Herein, employing the first-principles calculations, we explored the effect of chemical functionalization on the structural and electronic properties of the ZnO monolayer. The results demonstrated that the hydrogenated-, fluorinated- or Janus-functionalized ZnO monolayers were thermodynamically and mechanically stable except for the fully hydrogenated ZnO monolayer. The band gap of the ZnO monolayer could be effectively modulated by hydrogenation or fluorination, which varied from 0 to 2.948 eV, as obtained by the PBE functional, and from 0 to 5.114 eV, as obtained by the HSE06 functional. In addition, a nonmagnetic metal → nonmagnetic semiconductor transition was achieved after hydrogenation, whereas a transition from a magnetic half-metal to nonmagnetic semiconductor occurred after fluorination of the ZnO monolayer. These results demonstrate that tunability of the electronic properties of the ZnO monolayer can be realized by chemical functionalization for future nanoelectronic device applications.

Graphical abstract: Chemical functionalization of the ZnO monolayer: structural and electronic properties

Article information

Article type
Paper
Submitted
09 May 2019
Accepted
26 Jun 2019
First published
15 Jul 2019
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2019,9, 21831-21843

Chemical functionalization of the ZnO monolayer: structural and electronic properties

L. Chen, Y. Cui, Z. Xiong, M. Zhou and Y. Gao, RSC Adv., 2019, 9, 21831 DOI: 10.1039/C9RA03484F

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