基于密度泛函理论的Janus ZrSSe的电子和光学性质

Electronic and optical properties of Janus ZrSSe by density functional theory.

作者信息

Vu Tuan V, Tong Hien D, Tran Duy Phu, Binh Nguyen T T, Nguyen Chuong V, Phuc Huynh V, Do Hoat M, Hieu Nguyen N

机构信息

Division of Computational Physics, Institute for Computational Science, Ton Duc Thang University Ho Chi Minh City Viet Nam

Faculty of Electrical & Electronics Engineering, Ton Duc Thang University Ho Chi Minh City Viet Nam.

出版信息

RSC Adv. 2019 Dec 12;9(70):41058-41065. doi: 10.1039/c9ra08605f. eCollection 2019 Dec 9.

DOI:10.1039/c9ra08605f

PMID:35540071

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9076358/

Abstract

In the present work, we investigate systematically the electronic and optical properties of Janus ZrSSe using first-principles calculations. Our calculations demonstrate that the Janus ZrSSe monolayer is an indirect semiconductor at equilibrium. The band gap of the Janus ZrSSe is 1.341 eV using the Heyd-Scuseria-Ernzerhof hybrid functional, larger than the band gap of ZrSe monolayer and smaller than that of ZrS monolayer. Based on the analysis of the band edge alignment, we confirm that the Janus ZrSSe monolayer possesses photocatalytic activities that can be used in water splitting applications. While strain engineering plays an important role in modulating the electronic properties and optical characteristics of the Janus ZrSSe monolayer, the influence of the external electric field on these properties is negligible. The biaxial strain, , has significantly changed the band of the Janus ZrSSe monolayer, and particularly, the semiconductor-metal phase transition which occurred at = 7%. The Janus ZrSSe monolayer can absorb light in both visible and ultraviolet regions. Also, the biaxial strain has shifted the first optical gap of the Janus ZrSSe monolayer. Our findings provide additional information for the prospect of applying the Janus ZrSSe monolayer in nanoelectronic devices, especially in water splitting technology.

摘要

在本工作中，我们使用第一性原理计算系统地研究了Janus ZrSSe的电子和光学性质。我们的计算表明，Janus ZrSSe单层在平衡状态下是一种间接半导体。使用Heyd-Scuseria-Ernzerhof杂化泛函计算得到的Janus ZrSSe的带隙为1.341 eV，大于ZrSe单层的带隙且小于ZrS单层的带隙。基于对带边对齐的分析，我们证实Janus ZrSSe单层具有可用于水分解应用的光催化活性。虽然应变工程在调节Janus ZrSSe单层的电子性质和光学特性方面起着重要作用，但外部电场对这些性质的影响可以忽略不计。双轴应变显著改变了Janus ZrSSe单层的能带，特别是在 = 7%时发生了半导体-金属相变。Janus ZrSSe单层可以吸收可见光和紫外光区域的光。此外，双轴应变使Janus ZrSSe单层的第一个光学带隙发生了移动。我们的研究结果为Janus ZrSSe单层在纳米电子器件中的应用前景，特别是在水分解技术中的应用提供了更多信息。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e68e/9076358/3fc29c7f3db8/c9ra08605f-f1.jpg

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基于密度泛函理论的Janus ZrSSe的电子和光学性质

Electronic and optical properties of Janus ZrSSe by density functional theory.

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