Two-dimensional porous graphitic carbon nitride C6N7 monolayer: First-principles calculations

Two-dimensional porous graphitic carbon nitride C6N7 monolayer: First-principles calculations

The fabrication of the C6N7 monolayer [Zhao et al., Sci. Bull. 66, 1764 (2021)] motivated us to discover the optical, structural, mechanical, and electronic properties of the C6N7 monolayer by employing the density functional theory (DFT) method. We find that the shear modulus and Young's modul...

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Veröffentlicht in:Applied physics letters 2021-10, Vol.119 (14)
Hauptverfasser: Bafekry, A., Faraji, M., Fadlallah, M. M., Abdolhosseini Sarsari, I., Jappor, H. R., Fazeli, S., Ghergherehchi, M.
Format: Artikel
Sprache:eng
Schlagworte:
Applied physics
Carbon nitride
Density functional theory
First principles
Graphene
Modulus of elasticity
Monolayers
Optical properties
Poisson's ratio
Shear modulus
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Zusammenfassung:The fabrication of the C6N7 monolayer [Zhao et al., Sci. Bull. 66, 1764 (2021)] motivated us to discover the optical, structural, mechanical, and electronic properties of the C6N7 monolayer by employing the density functional theory (DFT) method. We find that the shear modulus and Young's modulus of the C6N7 monolayer are smaller than the relevant values of graphene. However, Poisson's ratio is more significant than that of graphene. Applying the PBE (HSE06) functional bandgap of the C6N7 monolayer is 1.2 (1.97) eV, and the electronic dispersion is almost isotropic around the Γ point. C6N7 is more active in the ultraviolet region as compared to the visible light region. This study provides outstanding results, highlighting the bright viewpoints for the applications of the C6N7 monolayer in electronic and optical systems.
ISSN:0003-6951
1077-3118
DOI:10.1063/5.0060496