Near-infrared room temperature luminescence of few-atom Au aggregates in silica: a path for the energy-transfer to Er3+ ions

Ultra-small molecule-like Au N nanoclusters made by a number of atoms N less than 30 were produced by ion implantation in silica substrates. Their room temperature photoluminescence properties in the visible and near-infrared range have been investigated and correlated with the Er sensitization effe...

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Veröffentlicht in:	Nanoscale 2014-01, Vol.6 (3), p.1716-1724
Hauptverfasser:	Cesca, Tiziana, Kalinic, Boris, Maurizio, Chiara, Scian, Carlo, Battaglin, Giancarlo, Mazzoldi, Paolo, Mattei, Giovanni
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creator	Cesca, Tiziana Kalinic, Boris Maurizio, Chiara Scian, Carlo Battaglin, Giancarlo Mazzoldi, Paolo Mattei, Giovanni
description	Ultra-small molecule-like Au N nanoclusters made by a number of atoms N less than 30 were produced by ion implantation in silica substrates. Their room temperature photoluminescence properties in the visible and near-infrared range have been investigated and correlated with the Er sensitization effects observed in Er-Au co-implanted samples. The intense photoluminescence emission under 488 nm laser excitation occurs in three different spectral regions around 750 nm (band A), 980 nm (band B) and 1150 nm (band C) as a consequence of the formation of discrete energy levels in the electronic structure of the molecule-like Au N nanoclusters. Indeed, energy maxima of bands A and C scale with N −1/3 as expected for quantum confined systems. Conversely, the energy maximum of band B appears to be almost independent of size, suggesting a contribution of electronic surface states. A clear correlation between the formation of band B in the samples and Er-related photoemission is demonstrated: the band at 980 nm related to Au N nanoclusters resonant with the corresponding Er 3+ absorption level, is suggested as an effective de-excitation channel through which the Au-related photon energy may be transferred from Au nanoclusters to Er ions (either directly or mediated by photon absorption), eventually producing the Er-related infrared emission at 1540 nm. Near-infrared luminescence of molecule-like Au N aggregates triggers the transfer of energy to Er 3+ ions in silica.
doi_str_mv	10.1039/c3nr04108e
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Their room temperature photoluminescence properties in the visible and near-infrared range have been investigated and correlated with the Er sensitization effects observed in Er-Au co-implanted samples. The intense photoluminescence emission under 488 nm laser excitation occurs in three different spectral regions around 750 nm (band A), 980 nm (band B) and 1150 nm (band C) as a consequence of the formation of discrete energy levels in the electronic structure of the molecule-like Au N nanoclusters. Indeed, energy maxima of bands A and C scale with N −1/3 as expected for quantum confined systems. Conversely, the energy maximum of band B appears to be almost independent of size, suggesting a contribution of electronic surface states. A clear correlation between the formation of band B in the samples and Er-related photoemission is demonstrated: the band at 980 nm related to Au N nanoclusters resonant with the corresponding Er 3+ absorption level, is suggested as an effective de-excitation channel through which the Au-related photon energy may be transferred from Au nanoclusters to Er ions (either directly or mediated by photon absorption), eventually producing the Er-related infrared emission at 1540 nm. 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A clear correlation between the formation of band B in the samples and Er-related photoemission is demonstrated: the band at 980 nm related to Au N nanoclusters resonant with the corresponding Er 3+ absorption level, is suggested as an effective de-excitation channel through which the Au-related photon energy may be transferred from Au nanoclusters to Er ions (either directly or mediated by photon absorption), eventually producing the Er-related infrared emission at 1540 nm. 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title	Near-infrared room temperature luminescence of few-atom Au aggregates in silica: a path for the energy-transfer to Er3+ ions
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