Pressure coefficients of Raman modes of carbon nanotubes resolved by chirality: Environmental effect on graphene sheet

A. J. Ghandour; I. F. Crowe; J. E. Proctor; Y. W. Sun; M. P. Halsall; I. Hernandez; A. Sapelkin; D. J. Dunstan

doi:10.1103/PhysRevB.87.085416

Pressure coefficients of Raman modes of carbon nanotubes resolved by chirality: Environmental effect on graphene sheet

A. J. Ghandour, I. F. Crowe, J. E. Proctor, Y. W. Sun, M. P. Halsall, I. Hernandez, A. Sapelkin, D. J. Dunstan

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Abstract

Studies of the mechanical properties of single-walled carbon nanotubes are hindered by their availability only as ensembles of tubes with a range of diameters. However, tunable Raman spectroscopy is capable of identifying individual tubes from such ensembles. Interestingly, both the radial breathing mode and, surprisingly, the G-mode pressure coefficients exhibit strong environmental effects, which are largely independent of the nature of the environment. We show that the G-mode pressure coefficient varies with diameter, consistent with the thick-wall tube model. Reappraisal of literature data for graphene and graphite suggests revision of both the G-mode Grüneisen parameter γ and the shear deformation parameter β toward the value of 1.34. © 2013 American Physical Society.

Original language	English
Article number	085416
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	87
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevB.87.085416
Publication status	Published - 13 Feb 2013

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Ghandour, A. J., Crowe, I. F., Proctor, J. E., Sun, Y. W., Halsall, M. P., Hernandez, I., Sapelkin, A., & Dunstan, D. J. (2013). Pressure coefficients of Raman modes of carbon nanotubes resolved by chirality: Environmental effect on graphene sheet. Physical Review B - Condensed Matter and Materials Physics, 87(8), Article 085416. https://doi.org/10.1103/PhysRevB.87.085416

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abstract = "Studies of the mechanical properties of single-walled carbon nanotubes are hindered by their availability only as ensembles of tubes with a range of diameters. However, tunable Raman spectroscopy is capable of identifying individual tubes from such ensembles. Interestingly, both the radial breathing mode and, surprisingly, the G-mode pressure coefficients exhibit strong environmental effects, which are largely independent of the nature of the environment. We show that the G-mode pressure coefficient varies with diameter, consistent with the thick-wall tube model. Reappraisal of literature data for graphene and graphite suggests revision of both the G-mode Gr{\"u}neisen parameter γ and the shear deformation parameter β toward the value of 1.34. {\textcopyright} 2013 American Physical Society.",

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AU - Halsall, M. P.

AU - Hernandez, I.

AU - Sapelkin, A.

AU - Dunstan, D. J.

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AB - Studies of the mechanical properties of single-walled carbon nanotubes are hindered by their availability only as ensembles of tubes with a range of diameters. However, tunable Raman spectroscopy is capable of identifying individual tubes from such ensembles. Interestingly, both the radial breathing mode and, surprisingly, the G-mode pressure coefficients exhibit strong environmental effects, which are largely independent of the nature of the environment. We show that the G-mode pressure coefficient varies with diameter, consistent with the thick-wall tube model. Reappraisal of literature data for graphene and graphite suggests revision of both the G-mode Grüneisen parameter γ and the shear deformation parameter β toward the value of 1.34. © 2013 American Physical Society.

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Pressure coefficients of Raman modes of carbon nanotubes resolved by chirality: Environmental effect on graphene sheet

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