| 引用本文格式: Zhou Guo-Jian,Peng Zhang-E,Liu Lin,Luo Jian-Ping. Analysis of electronic structure properties and optical effects of O and Na doped monolayer h-BN based on density functional theory [J]. J. At. Mol. Phys., 2024, 41(6): 061002 (in Chinese) [周国建,彭章娥,刘琳,罗剑平. 基于密度泛函理论下O和Na掺杂单层h-BN的电子结构性质和光学效应的分析 [J]. 原子与分子物理学报, 2024, 41(6): 061002] |
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| 基于密度泛函理论下O和Na掺杂单层h-BN的电子结构性质和光学效应的分析 |
| Analysis of electronic structure properties and optical effects of O and Na doped monolayer h-BN based on density functional theory |
| 摘要点击 133 全文点击 36 投稿时间:2023-03-21 修订日期:2023-04-24 |
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| DOI编号
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| 中文关键词
单层h-BN 第一性原理 掺杂 电子结构 光学效应 |
| 英文关键词
Single-layer h-BN First principles Doping Electronic structure optical effects |
| 基金项目
国家自然科学基金重大项目 |
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| 中文摘要
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| 本文采用基于密度泛函理论的第一性原理方法研究了研究O、Na单掺杂及O和Na共掺杂单层h-BN的形成能、电子结构和光学效应。结果表明:单掺杂体系中,O掺杂N位置、Na掺杂B位置时,掺杂形成能最低;共掺杂体系中,O和Na邻位掺杂,掺杂形成能最低。与单层h-BN相比,引入杂质原子后的体系禁带宽度均减小,其中O掺杂为n型掺杂,Na掺杂为p型掺杂,而O和Na共掺h-BN体系为直接带隙材料,有利于提高载流子的迁移率。在光学性质方面,Na掺杂h-BN体系与O和Na共掺h-BN的静介电常数均增大,在低能区介电虚部和光吸收峰均发生红移,其中Na掺杂体系红移最为显著,极化能力最强。因此Na单掺和O和Na共掺有望增强单层h-BN的光催化能力,可扩展其在催化材料、光电器件等领域的应用。 |
| 英文摘要
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| The formation energy, electronic structure and optical effects of O and Na single doped and O-Na co-doped monolayer h-BN are studied by using the first-principles method based on density functional theory.The results show that the doping formation energy is the lowest when O is doped at N position and Na is doped at B position; In the co-doped system, O and Na are ortho-doped, and the doping formation energy is the lowest. Compared with monolayer h-BN, the band gap width of the system is reduced after introducing impurity atoms, in which O doping is n-type doping, Na doping is p-type doping, and O-Na co-doped h-BN system is a direct band gap material, which is beneficial to improve carrier mobility. In terms of optical properties, the static dielectric constant of Na doped h-BN system and O and Na co-doped h-BN increase, and the imaginary part of dielectric and optical absorption peak in the low energy region are red-shifted. Among them, the Na doped system has the most significant redshift and the strongest polarization ability. Therefore, Na monodoping and O and Na co-doping are expected to enhance the photocatalytic ability of monolayer h-BN and expand its application in photocatalysis materials, optoelectronic devices and other fields. |
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