Communications Materials (Jul 2024)

Face-centered cubic carbon as a fourth basic carbon allotrope with properties of intrinsic semiconductors and ultra-wide bandgap

  • Igor Konyashin,
  • Ruslan Muydinov,
  • Antonio Cammarata,
  • Andrey Bondarev,
  • Marin Rusu,
  • Athanasios Koliogiorgos,
  • Tomáš Polcar,
  • Daniel Twitchen,
  • Pierre-Olivier Colard,
  • Bernd Szyszka,
  • Nicola Palmer

DOI
https://doi.org/10.1038/s43246-024-00547-8
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 13

Abstract

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Abstract Carbon is considered to exist in three basic forms: diamond, graphite/graphene/fullerenes, and carbyne, which differ in a type of atomic orbitals hybridization. Since several decades the existence of the fourth basic carbon allotropic form with the face-centered cubic (fcc) crystal lattice has been a matter of discussion despite clear evidence for its laboratory synthesis and presence in nature. Here, we obtain this carbon allotrope in form of epitaxial films on diamond in a quantity sufficient to perform their comprehensive studies. The carbon material has an fcc crystal structure, shows a negative electron affinity, and is characterized by a peculiar hybridization of the valence atomic orbitals. Its bandgap (~6 eV) is typical for insulators, whereas the noticeable electrical conductivity (~0.1 S m−1) increases with temperature, which is typical for semiconductors. Ab initio calculations explain this apparent contradiction by noncovalent sharing p-electrons present in the uncommon valence band structure comprising an intraband gap. This carbon allotrope can create a new pathway to ‘carbon electronics’ as the first intrinsic semiconductor with an ultra-wide bandgap.