Raman spectroscopy analysis of number of layers in mass-produced graphene flakes

Raman spectroscopy analysis of number of layers in mass-produced graphene flakes

A metrological framework for statistical analysis of number of layers and stacking order in mass-produced graphene using Raman spectroscopy is presented. The method is based on two complementary protocols, denominated by 2D and G. The 2D–protocol is based on the parameterized principal component ana...

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Veröffentlicht in:Carbon (New York) 2020-05, Vol.161, p.181-189
Hauptverfasser: Silva, Diego L., Campos, João Luiz E., Fernandes, Thales F.D., Rocha, Jeronimo N., Machado, Lucas R.P., Soares, Eder M., Miquita, Douglas R., Miranda, Hudson, Rabelo, Cassiano, Vilela Neto, Omar P., Jorio, Ado, Cançado, Luiz Gustavo
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Cost analysis
Flakes
Graphene
Interlayers
Liquid phases
Neural networks
Noise reduction
Principal components analysis
Protocol (computers)
Raman spectroscopy
Spectrum analysis
Statistical analysis
Two dimensional analysis
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Zusammenfassung:A metrological framework for statistical analysis of number of layers and stacking order in mass-produced graphene using Raman spectroscopy is presented. The method is based on two complementary protocols, denominated by 2D and G. The 2D–protocol is based on the parameterized principal component analysis of the two-phonon 2D band, and it measures interlayer coupling. A neural-network algorithm for spectral denoising was also developed to improve the outcome. The G–protocol explores the intensity of the bond-stretching G band, and provides information about the number of layers. The method is suitable for automated statistical analysis of heterogeneous graphene-based systems with relatively low computational cost, as shown here for graphene flakes prepared by the liquid-phase exfoliation of graphite. [Display omitted]
ISSN:0008-6223
1873-3891
DOI:10.1016/j.carbon.2020.01.050