Layered conjugated porous fused aromatic network structures of two-dimensional carbon nitride: a first-principles calculation of optoelectronic properties

A. Bafekry; M. M. Fadlallah; C. Stampfl; A. Abdolahzadeh Ziabari; S. Fazeli; M. Faraji; H. R. Jappor; M. Ghergherehchi

doi:10.1007/s00339-024-07675-5

Layered conjugated porous fused aromatic network structures of two-dimensional carbon nitride: a first-principles calculation of optoelectronic properties

A. Bafekry
, M. M. Fadlallah
, C. Stampfl
, A. Abdolahzadeh Ziabari
, S. Fazeli
, M. Faraji
, H. R. Jappor
, M. Ghergherehchi

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

Very recently, the two-dimensional (2D) structure of poly-benzimidazobenzophenanthroline (C₅N) has been effectively synthesized [Javeed Mahmood et al., Adv. Mater. 2021, 33, 2,004,707]. Inspired by interesting experimental findings on 2D layered C₅N structures, we employ DFT study to examine the electronic, structural, and optical features of C₅N in bulk, bilayer, and monolayer honeycomb crystal configurations. The obtained results demonstrate that all configurations of the C₅N structures have a strong bond network with cohesive energies comparable to graphene. In the ground state, the C₅N bulk, bilayer and monolayer honeycomb crystal structures are a semiconductor. It is found that the bandgap of the C₅N structures slightly increases with the decrease in the number of layers. The optical properties indicate the bulk structure possesses a greater capacity to absorb a broad range of visible light compared to the monolayer and bilayer.

Original language	English
Article number	500
Journal	Applied Physics A: Materials Science and Processing
Volume	130
Issue number	7
DOIs	https://doi.org/10.1007/s00339-024-07675-5
State	Published - Jul 2024
Externally published	Yes

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Bafekry, A., Fadlallah, M. M., Stampfl, C., Ziabari, A. A., Fazeli, S., Faraji, M., Jappor, H. R., & Ghergherehchi, M. (2024). Layered conjugated porous fused aromatic network structures of two-dimensional carbon nitride: a first-principles calculation of optoelectronic properties. Applied Physics A: Materials Science and Processing, 130(7), Article 500. https://doi.org/10.1007/s00339-024-07675-5

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title = "Layered conjugated porous fused aromatic network structures of two-dimensional carbon nitride: a first-principles calculation of optoelectronic properties",

abstract = "Very recently, the two-dimensional (2D) structure of poly-benzimidazobenzophenanthroline (C5N) has been effectively synthesized [Javeed Mahmood et al., Adv. Mater. 2021, 33, 2,004,707]. Inspired by interesting experimental findings on 2D layered C5N structures, we employ DFT study to examine the electronic, structural, and optical features of C5N in bulk, bilayer, and monolayer honeycomb crystal configurations. The obtained results demonstrate that all configurations of the C5N structures have a strong bond network with cohesive energies comparable to graphene. In the ground state, the C5N bulk, bilayer and monolayer honeycomb crystal structures are a semiconductor. It is found that the bandgap of the C5N structures slightly increases with the decrease in the number of layers. The optical properties indicate the bulk structure possesses a greater capacity to absorb a broad range of visible light compared to the monolayer and bilayer.",

author = "A. Bafekry and Fadlallah, \{M. M.\} and C. Stampfl and Ziabari, \{A. Abdolahzadeh\} and S. Fazeli and M. Faraji and Jappor, \{H. R.\} and M. Ghergherehchi",

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Bafekry, A, Fadlallah, MM, Stampfl, C, Ziabari, AA, Fazeli, S, Faraji, M, Jappor, HR & Ghergherehchi, M 2024, 'Layered conjugated porous fused aromatic network structures of two-dimensional carbon nitride: a first-principles calculation of optoelectronic properties', Applied Physics A: Materials Science and Processing, vol. 130, no. 7, 500. https://doi.org/10.1007/s00339-024-07675-5

TY - JOUR

T1 - Layered conjugated porous fused aromatic network structures of two-dimensional carbon nitride

T2 - a first-principles calculation of optoelectronic properties

AU - Bafekry, A.

AU - Fadlallah, M. M.

AU - Stampfl, C.

AU - Ziabari, A. Abdolahzadeh

AU - Fazeli, S.

AU - Faraji, M.

AU - Jappor, H. R.

AU - Ghergherehchi, M.

N1 - Publisher Copyright: © The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature 2024.

PY - 2024/7

Y1 - 2024/7

N2 - Very recently, the two-dimensional (2D) structure of poly-benzimidazobenzophenanthroline (C5N) has been effectively synthesized [Javeed Mahmood et al., Adv. Mater. 2021, 33, 2,004,707]. Inspired by interesting experimental findings on 2D layered C5N structures, we employ DFT study to examine the electronic, structural, and optical features of C5N in bulk, bilayer, and monolayer honeycomb crystal configurations. The obtained results demonstrate that all configurations of the C5N structures have a strong bond network with cohesive energies comparable to graphene. In the ground state, the C5N bulk, bilayer and monolayer honeycomb crystal structures are a semiconductor. It is found that the bandgap of the C5N structures slightly increases with the decrease in the number of layers. The optical properties indicate the bulk structure possesses a greater capacity to absorb a broad range of visible light compared to the monolayer and bilayer.

AB - Very recently, the two-dimensional (2D) structure of poly-benzimidazobenzophenanthroline (C5N) has been effectively synthesized [Javeed Mahmood et al., Adv. Mater. 2021, 33, 2,004,707]. Inspired by interesting experimental findings on 2D layered C5N structures, we employ DFT study to examine the electronic, structural, and optical features of C5N in bulk, bilayer, and monolayer honeycomb crystal configurations. The obtained results demonstrate that all configurations of the C5N structures have a strong bond network with cohesive energies comparable to graphene. In the ground state, the C5N bulk, bilayer and monolayer honeycomb crystal structures are a semiconductor. It is found that the bandgap of the C5N structures slightly increases with the decrease in the number of layers. The optical properties indicate the bulk structure possesses a greater capacity to absorb a broad range of visible light compared to the monolayer and bilayer.

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JO - Applied Physics A: Materials Science and Processing

JF - Applied Physics A: Materials Science and Processing

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M1 - 500

ER -

Layered conjugated porous fused aromatic network structures of two-dimensional carbon nitride: a first-principles calculation of optoelectronic properties

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