The possibility of tailoring by ion irradiation size, composition and topology of nanoclusters embedded in silica is systematically investigated in terms of irradiation parameters like ion mass, fluence, current density. By properly tuning the nuclear component of the energy released to the nanocomposite it is possible to create a halo of satellite clusters around the original ones. A direct correlation between the nuclear component of the energy released by the irradiating ions and the size and density of the satellite clusters is found. A second feature of this process is an elementally selective extraction of the Au–Ag alloy elements from the alloy with a prevalence of Au with respect to Ag.
Modification of composition and structure of bimetallic nanoclusters in silica by ion beam irradiation
MATTEI, Giovanni;MAZZOLDI, Paolo;SADA, Cinzia;BATTAGLIN, Giancarlo
2005-01-01
Abstract
The possibility of tailoring by ion irradiation size, composition and topology of nanoclusters embedded in silica is systematically investigated in terms of irradiation parameters like ion mass, fluence, current density. By properly tuning the nuclear component of the energy released to the nanocomposite it is possible to create a halo of satellite clusters around the original ones. A direct correlation between the nuclear component of the energy released by the irradiating ions and the size and density of the satellite clusters is found. A second feature of this process is an elementally selective extraction of the Au–Ag alloy elements from the alloy with a prevalence of Au with respect to Ag.File | Dimensione | Formato | |
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Nucl Instr Meth B 240 128 Modification of composition and structure of bimetallic nanocluster in silica by ion beam irradiation.pdf
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