Ultrafast Electronic Relaxation and Coherent Vibrational Oscillation of Strongly Coupled Gold Nanoparticle Aggregates

Abstract: We report the first direct observation of the ultrafast electronic relaxation and coherent vibrational oscillation of strongly interacting gold nanoparticle aggregates measured by femtosecond laser spectroscopy. The electronic relaxation, reflected as a fast decay component with a time constant of 1.5-2.5 ps, becomes faster with decreasing pump power, similar to earlier observations of isolated gold nanoparticles. Surprisingly, periodic oscillations have been observed in the transient absorption/bleach signal … Show more

“…Hydrodynamic drag force (F d ) produced from laser heating of nanoparticles solution resulted in a circulation of the fluid which can also contribute to the agglomeration of nanoparticles. The drag force can be given by the following equation (Grant et al 2003;Khodary 2010):…”

Preparation and properties of polystyrene incorporated with gold and silver nanoparticles for optoelectronic applications

“…Hydrodynamic drag force (F d ) produced from laser heating of nanoparticles solution resulted in a circulation of the fluid which can also contribute to the agglomeration of nanoparticles. The drag force can be given by the following equation (Grant et al 2003;Khodary 2010):…”

Preparation and properties of polystyrene incorporated with gold and silver nanoparticles for optoelectronic applications

“…Au NPs in aqueous solutions exhibit distinctive colors according to their morphology because of their surface plasmon resonance. Whereas well-dispersed Au NPs in solution are red in color, aggregated Au NPs appear bluish purple color [5][6][7]. A series of gold nanoparticlebased colorimetric sensors have been investigated involving the formation of interparticle bridging structures composed of analytes and special functional ligands.…”

A highly selective and sensitive colorimetric sensor for iodide detection based on anti-aggregation of gold nanoparticles

“…[2][3][4][5][6] For SERS to reach intensity comparable to fluorescence, aggregation of metal-NPs is usually required. Typically, Raman dyes that bind strongly to Au or Ag NPs, such as dye molecules with an organothiol group, an isothiocyanate group, or multiple sulfur atoms, were used, and the nanoaggregates were stabilized by protective shells.…”

Nanoaggregate‐Embedded Beads as Novel Raman Labels for Biodetection