Multiple implantations of Au and Ag ions in pure silica and Er-doped silica matrices have been performed to promote the formation of small Au-Ag alloy clusters. Upon annealing in N-2 atmosphere at 600 degrees C the structural investigation based on X-ray absorption spectroscopy at Au L-3-edge detected for both cases the formation of Au-Ag alloy clusters, whose size is likely below 1 nm. The alloy composition is rich in Au; a minor part of Au atoms remains dispersed into the matrix and oxidized. In the Er-doped silica, the presence of these small alloy aggregates promotes a strong enhancement of the Er3+ luminescence at 1.54 mu m, that is more marked with respect to similarly produced layers where only pure Au sub-nanometer clusters were present. (C) 2014 Elsevier B.V. All rights reserved.
Effect of ultrasmall Au-Ag aggregates formed by ion implantation in Er-implanted silica on the 1.54 mu m Er3+ luminescence
Trapananti A;
2014
Abstract
Multiple implantations of Au and Ag ions in pure silica and Er-doped silica matrices have been performed to promote the formation of small Au-Ag alloy clusters. Upon annealing in N-2 atmosphere at 600 degrees C the structural investigation based on X-ray absorption spectroscopy at Au L-3-edge detected for both cases the formation of Au-Ag alloy clusters, whose size is likely below 1 nm. The alloy composition is rich in Au; a minor part of Au atoms remains dispersed into the matrix and oxidized. In the Er-doped silica, the presence of these small alloy aggregates promotes a strong enhancement of the Er3+ luminescence at 1.54 mu m, that is more marked with respect to similarly produced layers where only pure Au sub-nanometer clusters were present. (C) 2014 Elsevier B.V. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
