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18 April 2016 Structural Raman enhancement in graphite nano-discs
J. F. Cardenas, D. Chakarov, B. Kasemo
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Proceedings Volume 9883, Metamaterials X; 98830L (2016) https://doi.org/10.1117/12.2231084
Event: SPIE Photonics Europe, 2016, Brussels, Belgium
Abstract
Raman scattering in disc-shaped graphite nanostructures, etched out of bulk HOPG, are investigated using an excitation wavelength of 532 nm at different laser power. The G-band is fitted using two Lorentzian functions, GL and GH. The difference of Raman shift between the two Lorentzian functions increase with laser power as a consequence of selective absorption and heating of the discs. Further, the G-band from the nanostructured HOPG reveal a Raman enhancement (RE) of ~2.2 and ~1.5 for the components associated with the discs (GL) and the supporting substrate (GH), respectively. The quantitative agreement between the experimental results and performed finite difference time domain calculations make possible to conclude that electromagnetic energy penetrates considerably into the discs from the circular periphery probably due to multiple scattering. In addition, the dependence of RE of the GL component on the laser power is attributed to a temperature dependent electron-phonon coupling.
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J. F. Cardenas, D. Chakarov, and B. Kasemo "Structural Raman enhancement in graphite nano-discs", Proc. SPIE 9883, Metamaterials X, 98830L (18 April 2016); https://doi.org/10.1117/12.2231084
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KEYWORDS
Raman spectroscopy
Raman scattering
Light scattering
Nanoparticles
Nanostructuring
Particles
Dielectrics
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