Issue 35, 2019

Prediction of C7N6 and C9N4: stable and strong porous carbon-nitride nanosheets with attractive electronic and optical properties

Abstract

In this work, three novel porous carbon-nitride nanosheets with C7N6, C9N4 and C10N3 stoichiometries are predicted. First-principles simulations were accordingly employed to evaluate stability and explore the mechanical, electronic and optical properties. Phonon dispersions confirm the dynamical stability of all predicted nanosheets. Nonetheless, ab initio molecular dynamics results indicate that only C7N6 and C9N4 are thermally stable. C7N6, C9N4 and C10N3 nanosheets were predicted to exhibit high elastic moduli of 212, 202 and 208 N m−1 and maximum tensile strengths of 14.1, 22.4 and 15.8 N m−1, respectively. The C7N6 monolayer was confirmed to be a direct band-gap semiconductor, with a 2.25 eV gap according to the HSE06 method estimation. Interestingly, C9N4 and C10N3 monolayers show metallic character. The first absorption peaks of the optical spectra reveal that the C7N6 nanosheet can absorb visible light, whereas C9N4 and C10N3 monolayers can absorb in the infrared range of light. Moreover, the absorption coefficient and optical conductivity of the predicted nanosheets in the visible range of light are larger than those of graphene. The results provided by this study confirm the stability and highlight the very promising properties of C7N6 and C9N4 nanosheets, which may serve as promising candidates for numerous advanced technologies.

Graphical abstract: Prediction of C7N6 and C9N4: stable and strong porous carbon-nitride nanosheets with attractive electronic and optical properties

Supplementary files

Article information

Article type
Paper
Submitted
29 Jūn. 2019
Accepted
05 Aug. 2019
First published
08 Aug. 2019

J. Mater. Chem. C, 2019,7, 10908-10917

Prediction of C7N6 and C9N4: stable and strong porous carbon-nitride nanosheets with attractive electronic and optical properties

B. Mortazavi, M. Shahrokhi, A. V. Shapeev, T. Rabczuk and X. Zhuang, J. Mater. Chem. C, 2019, 7, 10908 DOI: 10.1039/C9TC03513C

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