Plasmon‐enhanced Raman scattering by suspended carbon nanotubes |
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| Authors: | Sebastian Heeg Nick Clark Antonios Oikonomou Aravind Vijayaraghavan Stephanie Reich |
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| Affiliation: | 1. Institut für Experimentalphysik, , 14195 Berlin, Germany;2. School of Materials, , Manchester M13, UK;3. National Graphene Center, , Manchester M13, UK;4. School of Computer Science, , Manchester M13, UK |
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| Abstract: | We report plasmon‐enhanced Raman scattering of the order of 103 by a metallic carbon nanotube partially suspended inside a near‐field cavity. The tube is part of a small bundle, and is interfaced with an Au nanodisc dimer using a recently developed assembly scheme based on dielectrophoretic deposition. Spatially resolved Raman measurements with two excitation wavelengths and two orthogonal polarizations confirm that the enhancement arises from a 65 nm long suspended tube segment. We show that the orientation of the tube inside the cavity can be as effective for generating enhancement as placing the nanotube precisely in a plasmonic hotspot. Position and shape of the G‐peak show that the suspended part of the tube is free of strain and doped with a Fermi energy shift ≤40 meV. (© 2014 WILEY‐VCH Verlag GmbH &Co. KGaA, Weinheim) |
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| Keywords: | Raman spectroscopy plasmonic cavities suspended carbon nanotubes plasmon‐enhanced Raman scattering |
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