Electronic and structural properties of 3D Hopf-linked carbon allotrope: Hopfene |
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| Authors: | I. Tomita S. Saito |
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| Affiliation: | 1. Sustainable Electronic Technologies, School of Electronics and Computer Science, Faculty of Physical Sciences and Engineering, University of Southampton, Southampton, UK;2. Department of Electrical and Computer Engineering, National Institute of Technology, Gifu College, Gifu, Japan i.tomita@soton.ac.uk!["ORCID]("//:0" "\"ORCID") https://orcid.org/0000-0003-3336-8744;4. Sustainable Electronic Technologies, School of Electronics and Computer Science, Faculty of Physical Sciences and Engineering, University of Southampton, Southampton, UK |
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| Abstract: | ABSTRACT Electronic and structural properties of a 3D carbon allotrope made of Hopf-linked graphenes, which we call a Hopfene – a type of topological crystal, are examined by semi-empirical molecular-orbital and density-functional-theoretical methods, where band-structure analyses reveal very different properties from those of 2D graphenes. Furthermore, the analyses give an interesting finding that, depending on graphene-sheet spacings, Hopfenes exhibit different band features between primary-type Hopfene with a finite minimum sheet spacing and secondary type with its double-sized spacing. The primary type shows semi-metallic nature and the secondary type exhibits semi-metallic or semiconducting nature at different bands and also has flat bands; these conducting features can be utilised by Fermi-level control. A device application of Hopfenes is also provided. |
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| Keywords: | Band structure electrical conduction graphene Hopf-link topology |
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!["ORCID]({"type":"image","src":"/templates/jsp/images/orcid.png"} "\"ORCID")
https://orcid.org/0000-0003-3336-8744;4. Sustainable Electronic Technologies, School of Electronics and Computer Science, Faculty of Physical Sciences and Engineering, University of Southampton, Southampton, UK