A novel two-dimensional boron-carbon-nitride (BCN) monolayer: A first-principles insight

A. Bafekry; M. Naseri; M. M. Fadlallah; I. Abdolhosseini Sarsari; M. Faraji; A. Bagheri Khatibani; M. Ghergherehchi; D. Gogova

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A novel two-dimensional boron-carbon-nitride (BCN) monolayer: A first-principles insight

机译：一种新型二维硼 - 碳 - 氮化物（BCN）单层：第一原理洞察力

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The optical, electronic, and structural properties of a theoretically predicted new boron-carbon-nitride (BCN) two-dimensional monolayer have been explored using density functional theory calculations. The phonon dispersion, molecular dynamics simulation, the cohesive energy, and the Born criteria of elastic constant calculations of the BCN monolayer confirm its stability. The phonon spectrum illustrates an out-of-plane flexure mode with quadratic dispersion in the long-wavelength limit. The BCN monolayer is a semiconductor with a direct bandgap of 0.9 (1.63) eV determined via the Perdew-Burke-Ernzerhof (Heyd-Scuseria-Ernzerhof) functional. The same electron and hole effective masses and mobility values indicate the high recombination rate of electrons and holes. Meanwhile, the BCN monolayer can absorb ultraviolet radiation more effectively than visible light. Due to its interesting physical properties, the novel BCN monolayer could be a rather good candidate material for electro-optical applications.

机译：通过密度泛函理论计算探索了理论上预测的新硼 - 氮化碳 - 氮化物（BCN）二维单层的光学，电子和结构性。声子分散，分子动力学模拟，粘性能量和BCN单层弹性恒定计算的出生标准证实了其稳定性。声波光谱说明了平面外挠曲模式，具有在长波长极限中的二次分散体。 BCN单层是通过Perdew-Burke-Ernzerhof（Heyd-Scuseria-Ernzerhof）功能的0.9（1.63）EV的直接带隙的半导体。相同的电子和孔有效质量和移动性值表示电子和孔的高重新结合速率。同时，BCN单层可以比可见光更有效地吸收紫外线辐射。由于其有趣的物理性质，新颖的BCN单层可以是用于电光应用的相当良好的候选材料。

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《Journal of Applied Physics》 |2021年第11期|114301.1-114301.8|共8页
作者
A. Bafekry; M. Naseri; M. M. Fadlallah; I. Abdolhosseini Sarsari; M. Faraji; A. Bagheri Khatibani; M. Ghergherehchi; D. Gogova;
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作者单位

Department of Radiation Application Shahid Beheshti University Tehran 1983969411 Iran;

Department of Physics Kermanshah Branch Islamic Azad University 6718997551 Kermanshah Iran Department of Chemistry Department of Physics and Astronomy CMS - Center for Molecular Simulation IQST- Institute for Quantum Science and Technology Quantum Alberta University of Calgary 2500 University Drive NW Calgary Alberta Canada T2N 1N4;

Department of Physics Faculty of Science Benha University 13518 Benha Egypt;

Department of Physics Isfahan University of Technology Isfahan 84156-83111 Iran;

Micro and Nanotechnology Graduate Program TOBB University of Economics and Technology Sogutozu Caddesi No 43 Sogutozu 06560 Ankara Turkey;

Nano Research Lab Lahijan Branch Islamic Azad University 1616 Lahijan Iran;

Department of Electrical and Computer Engineering Sungkyunkwan University 16419 Suwon South Korea;

Department of Physics Chemistry and Biology Linkoping University 581 83 Linkoeping Sweden;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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A novel two-dimensional boron-carbon-nitride (BCN) monolayer: A first-principles insight

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