Graphene Domain Signature of Raman Spectra of sp2 Amorphous Carbons

Graphene Domain Signature of Raman Spectra of sp2 Amorphous Carbons

The standard D-G-2D pattern of Raman spectra of sp2 amorphous carbons is considered from the viewpoint of graphene domains presenting their basic structure units (BSUs) in terms of molecular spectroscopy. The molecular approximation allows connecting the characteristic D-G doublet spectra image of o...

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Veröffentlicht in:Nanomaterials (Basel, Switzerland) Switzerland), 2020-10, Vol.10 (10), p.2021
Hauptverfasser: Sheka, Elena F., Golubev, Yevgeny A., Popova, Nadezhda A.
Format: Artikel
Sprache:eng
Schlagworte:
amorphics with molecular structure
Anharmonicity
Carbon
Domains
electrical anharmonicity
Electron density
Elementary excitations
Fractals
Graphene
graphene domains
Graphite
Molecular spectroscopy
Molecular structure
one-phonon and two-phonon Raman spectra
Phonons
Quantum dots
Raman spectra
Raman spectroscopy
sp2 amorphous carbons
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Zusammenfassung:The standard D-G-2D pattern of Raman spectra of sp2 amorphous carbons is considered from the viewpoint of graphene domains presenting their basic structure units (BSUs) in terms of molecular spectroscopy. The molecular approximation allows connecting the characteristic D-G doublet spectra image of one-phonon spectra with a considerable dispersion of the C=C bond lengths within graphene domains, governed by size, heteroatom necklace of BSUs as well as BSUs packing. The interpretation of 2D two-phonon spectra reveals a particular role of electrical anharmonicity in the spectra formation and attributes this effect to a high degree of the electron density delocalization in graphene domains. A size-stimulated transition from molecular to quasi-particle phonon consideration of Raman spectra was experimentally traced, which allowed evaluation of a free path of optical phonons in graphene crystal.
ISSN:2079-4991
2079-4991
DOI:10.3390/nano10102021