Atti della Accademia Peloritana dei Pericolanti : Classe di Scienze Fisiche, Matematiche e Naturali (Sep 2011)

Optical trapping of carbon nanotubes and graphene

  • S. Vasi,
  • M. A. Monaca,
  • M. G. Donato,
  • F. Bonaccorso,
  • G. Privitera,
  • O. Trushkevych,
  • G. Calogero,
  • B. Fazio,
  • A. Irrera,
  • M. A. Iati',
  • R. Saija,
  • P. Denti,
  • F. Borghese,
  • P. H. Jones,
  • A. C. Ferrari,
  • P. G. Gucciardi,
  • O. M. Marago'

DOI
https://doi.org/10.1478/C1V89S1P090
Journal volume & issue
Vol. 89, no. S1
pp. C1V89S1P090 – 1

Abstract

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We study optical trapping of nanotubes and graphene. We extract the distribution of both centre-of-mass and angular fluctuations from three-dimensional tracking of these optically trapped carbon nanostructures. The optical force and torque constants are measured from auto and cross-correlation of the tracking signals. We demonstrate that nanotubes enable nanometer spatial, and femto-Newton force resolution in photonic force microscopy by accurately measuring the radiation pressure in a double frequency optical tweezers. Finally, we integrate optical trapping with Raman and photoluminescence spectroscopy demonstrating the use of a Raman and photoluminescence tweezers by investigating the spectroscopy of nanotubes and graphene flakes in solution. Experimental results are compared with calculations based on electromagnetic scattering theory.