The optical properties of gold atoms supported on amorphous silica (\α-SiO2) were studied experimentally and theoretically in the visible range. Samples were prepared in situ by depositing Au atoms at low coverages (5x10(12) cm(-2)) in UHV, and the optical absorption spectra were recorded by cavity ringdown spectroscopy. The atomic absorption bands can be attributed to gold atoms trapped at =Si-O-\• and =Si-O- defect sites. The absence of optical transitions typical for Au-2 shows that the atoms are efficiently anchored at these defect sites, preventing diffusion and aggregation. Furthermore, these experimental results reveal that it is now possible to study optical properties of well-defined nanostructures at surface coverages as low as 5x10(11) cm(-2)
Antonietti, J., Michalski, M., Heiz, U., Jones, H., Lim, K., Rosch, N., et al. (2005). Optical absorption spectrum of gold atoms deposited on SiO2 from cavity ringdown spectroscopy. PHYSICAL REVIEW LETTERS, 94(21) [10.1103/PhysRevLett.94.213402].
Optical absorption spectrum of gold atoms deposited on SiO2 from cavity ringdown spectroscopy
DEL VITTO, ANNALISA;PACCHIONI, GIANFRANCO
2005
Abstract
The optical properties of gold atoms supported on amorphous silica (\α-SiO2) were studied experimentally and theoretically in the visible range. Samples were prepared in situ by depositing Au atoms at low coverages (5x10(12) cm(-2)) in UHV, and the optical absorption spectra were recorded by cavity ringdown spectroscopy. The atomic absorption bands can be attributed to gold atoms trapped at =Si-O-\• and =Si-O- defect sites. The absence of optical transitions typical for Au-2 shows that the atoms are efficiently anchored at these defect sites, preventing diffusion and aggregation. Furthermore, these experimental results reveal that it is now possible to study optical properties of well-defined nanostructures at surface coverages as low as 5x10(11) cm(-2)I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.