Structural Determination of Metal Nanoparticles from their Vibrational (Phonon) Density of States

The vibrational (phonon) density of states of metal nanoparticles with size between 2 and 6 nm can be measured using nuclear resonant inelastic X-ray or plasmon resonance Raman scattering. In this work, we present atomistic calculations, based on a semiempirical tight-binding many-body Gupta potential, of the vibrational density of states (VDOS) for face-centered cubic (FCC), decahedral, and icosahedral (ICO) gold and silver nanopartides with sizes 4 nm (similar to 2000 atoms). The calculated VDOS are compared with experimental data, recently published for gold and silver nanoparticles of similar size, Obtained through plasmon resonance Raman scattering. The best agreement between the calculated and measured VDOS's is obtained for the ICO morphology for both metal nanoparticles. These results indicate that most of the nanop articles in the experimental samples should have icosahedral structures. The present study also shows that, as in the case of molecular systems and small clusters, vibrational spectroscopy of metal nanopartides with few nanometers in size, together with theoretical calculations, are powerful tools for their structure determination.