Raman spectroscopic determination of the length, strength, compressibility, Debye temperature, elasticity, and force constant of the C–C bond in graphene
From the perspective of bond relaxation and bond vibration, we have formulated the Raman phonon relaxation of graphene, under the stimuli of the number-of-layers, the uni-axial strain, the pressure, and the temperature, in terms of the response of the length and strength of the representative bond o...
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sg-ntu-dr.10356-972112020-03-07T14:02:46Z Raman spectroscopic determination of the length, strength, compressibility, Debye temperature, elasticity, and force constant of the C–C bond in graphene Zhou, Zhaofeng Sun, Changqing Yang, X. X. Li, J. W. Wang, Y. Yang, L. W. Zheng, W. T. School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering From the perspective of bond relaxation and bond vibration, we have formulated the Raman phonon relaxation of graphene, under the stimuli of the number-of-layers, the uni-axial strain, the pressure, and the temperature, in terms of the response of the length and strength of the representative bond of the entire specimen to the applied stimuli. Theoretical unification of the measurements clarifies that: (i) the opposite trends of the Raman shifts, which are due to the number-of-layers reduction, of the G-peak shift and arises from the vibration of a pair of atoms, while the D- and the 2D-peak shifts involve the z-neighbor of a specific atom; (ii) the tensile strain-induced phonon softening and phonon-band splitting arise from the asymmetric response of the C3v bond geometry to the C2v uni-axial bond elongation; (iii) the thermal softening of the phonons originates from bond expansion and weakening; and (iv) the pressure stiffening of the phonons results from bond compression and work hardening. Reproduction of the measurements has led to quantitative information about the referential frequencies from which the Raman frequencies shift as well as the length, energy, force constant, Debye temperature, compressibility and elastic modulus of the C–C bond in graphene, which is of instrumental importance in the understanding of the unusual behavior of graphene. 2013-06-26T02:34:37Z 2019-12-06T19:40:14Z 2013-06-26T02:34:37Z 2019-12-06T19:40:14Z 2012 2012 Journal Article Yang, X. X., Li, J. W., Zhou, Z. F., Wang, Y., Yang, L. W., Zheng, W. T., et al. (2012). Raman spectroscopic determination of the length, strength, compressibility, Debye temperature, elasticity, and force constant of the C–C bond in graphene. Nanoscale, 4(2), 502-510. 2040-3364 https://hdl.handle.net/10356/97211 http://hdl.handle.net/10220/10688 10.1039/c1nr11280e en Nanoscale © 2012 The Royal Society of Chemistry. |
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DRNTU::Engineering::Electrical and electronic engineering Zhou, Zhaofeng Sun, Changqing Yang, X. X. Li, J. W. Wang, Y. Yang, L. W. Zheng, W. T. Raman spectroscopic determination of the length, strength, compressibility, Debye temperature, elasticity, and force constant of the C–C bond in graphene |
| description |
From the perspective of bond relaxation and bond vibration, we have formulated the Raman phonon relaxation of graphene, under the stimuli of the number-of-layers, the uni-axial strain, the pressure, and the temperature, in terms of the response of the length and strength of the representative bond of the entire specimen to the applied stimuli. Theoretical unification of the measurements clarifies that: (i) the opposite trends of the Raman shifts, which are due to the number-of-layers reduction, of the G-peak shift and arises from the vibration of a pair of atoms, while the D- and the 2D-peak shifts involve the z-neighbor of a specific atom; (ii) the tensile strain-induced phonon softening and phonon-band splitting arise from the asymmetric response of the C3v bond geometry to the C2v uni-axial bond elongation; (iii) the thermal softening of the phonons originates from bond expansion and weakening; and (iv) the pressure stiffening of the phonons results from bond compression and work hardening. Reproduction of the measurements has led to quantitative information about the referential frequencies from which the Raman frequencies shift as well as the length, energy, force constant, Debye temperature, compressibility and elastic modulus of the C–C bond in graphene, which is of instrumental importance in the understanding of the unusual behavior of graphene. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhou, Zhaofeng Sun, Changqing Yang, X. X. Li, J. W. Wang, Y. Yang, L. W. Zheng, W. T. |
| format |
Article |
| author |
Zhou, Zhaofeng Sun, Changqing Yang, X. X. Li, J. W. Wang, Y. Yang, L. W. Zheng, W. T. |
| author_sort |
Zhou, Zhaofeng |
| title |
Raman spectroscopic determination of the length, strength, compressibility, Debye temperature, elasticity, and force constant of the C–C bond in graphene |
| title_short |
Raman spectroscopic determination of the length, strength, compressibility, Debye temperature, elasticity, and force constant of the C–C bond in graphene |
| title_full |
Raman spectroscopic determination of the length, strength, compressibility, Debye temperature, elasticity, and force constant of the C–C bond in graphene |
| title_fullStr |
Raman spectroscopic determination of the length, strength, compressibility, Debye temperature, elasticity, and force constant of the C–C bond in graphene |
| title_full_unstemmed |
Raman spectroscopic determination of the length, strength, compressibility, Debye temperature, elasticity, and force constant of the C–C bond in graphene |
| title_sort |
raman spectroscopic determination of the length, strength, compressibility, debye temperature, elasticity, and force constant of the c–c bond in graphene |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/97211 http://hdl.handle.net/10220/10688 |
| _version_ |
1681034694301319168 |