Revisiting the electronic nature of nanodiamonds
Revisiting the electronic nature of nanodiamonds
Nanodiamonds, commonly described as fragments of diamond, have been theoretically found to have lower HOMO-LUMO energy splitting compared to the bandgap of bulk diamond. This apparent lack of correlation between theory and experiment is caused by the position of the LUMO, which is placed in the surface of the ND. An eventual enlargement of the ND towards a macroscopic size will turn the LUMO into the unoccupied surface states, which are not accounted if the bandgap of a bulk material is measured. Here, the electron structure of the nanodiamonds is evaluated, demonstrating that due their nature they should be described as discrete systems instead of bulk materials. Hence, the word bandgap should be avoided in the case of the nanodiamonds, using HOMO-LUMO gap instead. Additionally, our obtained ionization potentials show a satisfactory degree of correlation with the experiment, while the electron affinities are found to be positive. Although this feature fits the estimation performed from experimental data, it opposes the generally accepted idea of a negative electron affinity for hydrogenated nanodiamonds. The present article clarifies common misunderstandings regarding the electronic nature of the NDs, and provides some guidelines for the correct computation of this systems. Finally, as a helpful tool, an estimation of the content of carbon atoms and its surface to volume ratio is provided starting from the diamond unit cell.
Bandgap, Density functional theory, Diamondoids, electron affinity, Ionization potential, Nanodiamonds
López-Carballeira, Diego
842c20b7-b117-47fc-909d-35a19046a45d
Cammarata, Antonio
d9f02172-7364-4d80-a32b-03d2d7970257
Polcar, Tomáš
c669b663-3ba9-4e7b-9f97-8ef5655ac6d2
4 October 2021
López-Carballeira, Diego
842c20b7-b117-47fc-909d-35a19046a45d
Cammarata, Antonio
d9f02172-7364-4d80-a32b-03d2d7970257
Polcar, Tomáš
c669b663-3ba9-4e7b-9f97-8ef5655ac6d2
López-Carballeira, Diego, Cammarata, Antonio and Polcar, Tomáš
(2021)
Revisiting the electronic nature of nanodiamonds.
Diamond and Related Materials, 120, [108627].
(doi:10.1016/j.diamond.2021.108627).
Abstract
Nanodiamonds, commonly described as fragments of diamond, have been theoretically found to have lower HOMO-LUMO energy splitting compared to the bandgap of bulk diamond. This apparent lack of correlation between theory and experiment is caused by the position of the LUMO, which is placed in the surface of the ND. An eventual enlargement of the ND towards a macroscopic size will turn the LUMO into the unoccupied surface states, which are not accounted if the bandgap of a bulk material is measured. Here, the electron structure of the nanodiamonds is evaluated, demonstrating that due their nature they should be described as discrete systems instead of bulk materials. Hence, the word bandgap should be avoided in the case of the nanodiamonds, using HOMO-LUMO gap instead. Additionally, our obtained ionization potentials show a satisfactory degree of correlation with the experiment, while the electron affinities are found to be positive. Although this feature fits the estimation performed from experimental data, it opposes the generally accepted idea of a negative electron affinity for hydrogenated nanodiamonds. The present article clarifies common misunderstandings regarding the electronic nature of the NDs, and provides some guidelines for the correct computation of this systems. Finally, as a helpful tool, an estimation of the content of carbon atoms and its surface to volume ratio is provided starting from the diamond unit cell.
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Accepted/In Press date: 23 September 2021
e-pub ahead of print date: 28 September 2021
Published date: 4 October 2021
Additional Information:
Funding Information:
This work was supported by the Ministry of Education, Youth and Sports of the Czech Republic through the e-INFRA CZ (ID: 90140 ). We also acknowledge support from the Ministry of Education, Youth and Sport of the Czech Republic (project CZ.02.1.01/0.0/0.0/15_003/0000464 ). This work has been done with the support of the project “ Novel nanostructures for engineering applications ” No. CZ.02.1.01/0.0/0.0/16_026/0008396 from the Ministry for Regional Development of the Czech Republic .
Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.
Keywords:
Bandgap, Density functional theory, Diamondoids, electron affinity, Ionization potential, Nanodiamonds
Identifiers
Local EPrints ID: 485401
URI: http://eprints.soton.ac.uk/id/eprint/485401
ISSN: 0925-9635
PURE UUID: bdd685fd-94bb-4bb2-8bef-f945a4169e3a
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Date deposited: 05 Dec 2023 18:01
Last modified: 06 Jun 2024 01:49
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Author:
Diego López-Carballeira
Author:
Antonio Cammarata
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