Tuning the structural and optical properties of gold/silver nanoalloys prepared by laser ablation in liquids for ultra-sensitive spectroscopy and optical trapping

Authors

  • E. Messina
  • L. D'Urso
  • C. Satriano
  • E. Fazio
  • M. G. Donato
  • B. Fazio
  • C. D'Andrea
  • O. M. Maragò CNR-IPCF
  • P. G. Gucciardi
  • G. Compagnini
  • F. Neri

DOI:

https://doi.org/10.1478/C1V89S1P064

Keywords:

Metal nanoparticles, Nonlinear photonics, Optical trapping

Abstract

The plasmon resonance of metallic Au/Ag alloys in the colloidal state was tuned from 400 nm to 500 nm using a laser irradiated technique, performed directly in the liquid state. Interesting optical nonlinearities, trapping effects and spectroscopic enhancements were detected as function of gold concentration in the nanoalloys. In particular a reduction of the limiting threshold was observed by increasing the gold amount. The SERS activity of the Au/Ag alloys was tested in liquid and in solid state in presence of linear carbon chains as probe molecules. The dependence of the increased Raman signals on the nanoparticle Au/Ag atomic ratio is presented and discussed. Finally preliminary studies and prospects for optical and Raman tweezers experiments are discussed.
Mount Aetna from Taormina by Thomas Cole (1843)

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Published

2011-09-15

Issue

Vol 89, SUPPLEMENT NO 1 (2011): ELS XIII Conference

Section

Past Conference Papers

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