Theoretical Study of the Electronic and Transport Properties of Lateral 2D–1D–2D Graphene–CNT–Graphene Structures

Theoretical Study of the Electronic and Transport Properties of Lateral 2D–1D–2D Graphene–CNT–Graphene Structures

The electronic and transport properties of new hybrid 2D–1D–2D structures of carbon atoms, which are graphene sheets continuously connected through a fragment of a single-layer carbon nanotube, frequently observed experimentally, are theoretically studied. The evolution of the electronic properties...

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Veröffentlicht in:JETP letters 2022, Vol.115 (2), p.93-97
Hauptverfasser: Valeev, B. Yu, Toksumakov, A. N., Kvashnin, D. G., Chernozatonskii, L. A.
Format: Artikel
Sprache:eng
Schlagworte:
Atomic
Biological and Medical Physics
Biophysics
Carbon
Carbon nanotubes
Chirality
Condensed Matter
Density functional theory
Electron density
Graphene
Molecular
Optical and Plasma Physics
Particle and Nuclear Physics
Physics
Physics and Astronomy
Quantum Information Technology
Solid State Physics
Spintronics
Transport properties
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Zusammenfassung:The electronic and transport properties of new hybrid 2D–1D–2D structures of carbon atoms, which are graphene sheets continuously connected through a fragment of a single-layer carbon nanotube, frequently observed experimentally, are theoretically studied. The evolution of the electronic properties of such systems with “zigzag” carbon nanotubes of various diameters with chirality indices (14, 0), (15, 0), (16, 0), and (18, 0) is studied using the tight coupling method within electron density functional theory. The calculation of the transmission coefficient demonstrates a strong nonlinearity in the behavior of the transport properties of these structures near the Fermi energy as a function of the diameter of carbon nanotubes, which explains discrepancies in the previously obtained experimental data.
ISSN:0021-3640
1090-6487
DOI:10.1134/S0021364022020114