The sensitization mechanism of Er3+ ions by sub-nanometric Au_N aggregates formed in silica by sequential ion implantation has been investigated by room temperature photoluminescence characterizations. Er–Au co-implanted samples with different Au and Er relative concentrations have been studied. The results allowed to point out a correlation between the luminescence properties of the molecule-like Au_N nanoclusters and the Er sensitization effect and to definitely prove the short-range nature of the energy-transfer process.
Enhanced optical functionalities in silica by doping with Au-based nanostructures
CESCA, TIZIANA
;KALINIC, BORIS;MAURIZIO, CHIARA;SCIAN, CARLO;BATTAGLIN, GIANCARLO;MAZZOLDI, PAOLO;MATTEI, GIOVANNI
2015
Abstract
The sensitization mechanism of Er3+ ions by sub-nanometric Au_N aggregates formed in silica by sequential ion implantation has been investigated by room temperature photoluminescence characterizations. Er–Au co-implanted samples with different Au and Er relative concentrations have been studied. The results allowed to point out a correlation between the luminescence properties of the molecule-like Au_N nanoclusters and the Er sensitization effect and to definitely prove the short-range nature of the energy-transfer process.File in questo prodotto:
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