The real honeycomb structure-From the macroscopic down to the atomic scale

Gura, Leonard; Brinker, Matthias; Marschalik, Patrik; Kalass, Florian; Junkes, Bettina; Junkes, Heinz; Heyde, Markus; Freund, Hans-Joachim

doi:10.1063/5.0148421

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The real honeycomb structure-From the macroscopic down to the atomic scale

Gura, L., Brinker, M., Marschalik, P., Kalass, F., Junkes, B., Junkes, H., et al. (2023). The real honeycomb structure-From the macroscopic down to the atomic scale. Journal of Applied Physics, 133(21): 215305. doi:10.1063/5.0148421.

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Datensatz-Permalink: https://hdl.handle.net/21.11116/0000-000D-55A8-6 Versions-Permalink: https://hdl.handle.net/21.11116/0000-000F-2703-2

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Urheber:
Gura, Leonard¹, Autor
Brinker, Matthias¹, Autor
Marschalik, Patrik¹, Autor
Kalass, Florian¹, Autor
Junkes, Bettina, Autor
Junkes, Heinz¹, Autor
Heyde, Markus¹, Autor
Freund, Hans-Joachim¹, Autor

Affiliations:
1Chemical Physics, Fritz Haber Institute, Max Planck Society, ou_24022

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Zusammenfassung: The honeycomb’s eponymous structure is omnipresent in our every day lives. We want to provide some inspiration to perform structural analyses of these structures and to draw comparisons between them. In the present study, we detect honeycomb patterns and related complex network structures on different length scales ranging from macroscopic objects down to the atomic scale of 2D materials. In 2D materials, a subset of the honeycomb structure-the kagome lattice-is very interesting due to unique material properties. For structure detection, we developed a program written in Python. The program is very adaptable and provides a graphical user interface to modify the detected network interactively. With the help of this program, we directly compare honeycomb structures with atomic network structures. Both honeycombs and 2D atom networks can show local deviations from their characteristic hexagonal pattern. The structural deviations at the macroscopic scale and at the atomic scale are very similar. We provide additional structural analyses of every day objects and encourage everyone to use our software that is freely accessible.

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Sprache(n): eng - English

Datum: Eingereicht: 2023-03-01Angenommen: 2023-05-11Online veröffentlicht: 2023-06-06Erschienen: 2023-06-07

Publikationsstatus: Erschienen

Seiten: 10

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Art der Begutachtung: Expertenbegutachtung

Identifikatoren: DOI: 10.1063/5.0148421

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Projektname : CRYVISIL - Crystalline and vitreous silica films and their interconversion

Grant ID : 669179

Förderprogramm : Horizon 2020 (H2020)

Förderorganisation : European Commission (EC)

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Titel: Journal of Applied Physics

Kurztitel : J. Appl. Phys.

Genre der Quelle: Zeitschrift

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Ort, Verlag, Ausgabe: New York, NY : AIP Publishing

Seiten: 10 Band / Heft: 133 (21) Artikelnummer: 215305 Start- / Endseite: - Identifikator: ISSN: 0021-8979
CoNE: https://pure.mpg.de/cone/journals/resource/991042723401880