用于光电应用的 g-CN/HfSSe 异质结的第一性原理设计。

First-principles design of g-CN/HfSSe heterojunctions for optoelectronic applications.

机构信息

Hunan Key Laboratory for Micro-Nano Energy Materials and Devices, School of Physics and Optoelectronics, Xiangtan University, Hunan 411105, People's Republic of China.

出版信息

J Phys Condens Matter. 2023 Jun 12;35(36). doi: 10.1088/1361-648X/acdb23.

DOI:10.1088/1361-648X/acdb23

PMID:37267993

Abstract

Based on first-principles calculations, the structure, electronic and optical properties of g-CN/HfSSe heterojunctions have been systematically explored. We prove the stability of two heterojunctions by comparing the binding energies from six different stacking heterojunctions, which name are g-CN/SHfSe heterojunction and g-CN/SeHfS heterojunction, respectively. It is shown that both heterojunctions behave direct band gaps with type II band alignment. The charge is rearranged at the interface after the heterojunctions are formed, which results in the formation of the built-in electric field. In the ultraviolet, visible and near-infrared regions, excellent light absorption is found in g-CN/HfSSe heterojunctions.

摘要

基于第一性原理计算，系统地研究了 g-CN/HfSSe 异质结的结构、电子和光学性质。我们通过比较六种不同堆叠异质结的结合能，证明了两种异质结的稳定性，这六种异质结分别是 g-CN/SHfSe 异质结和 g-CN/SeHfS 异质结。结果表明，两种异质结都表现出直接带隙和 II 型能带排列。异质结形成后，界面处的电荷重新排列，从而形成内置电场。在紫外、可见和近红外区域，g-CN/HfSSe 异质结具有优异的光吸收性能。

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用于光电应用的 g-CN/HfSSe 异质结的第一性原理设计。

First-principles design of g-CN/HfSSe heterojunctions for optoelectronic applications.

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