Title :
Rayleigh-instability-driven dewetting of thin Au and Ag films on indium-tin-oxide surface under nanosecond laser irradiations
Author :
Ruffino, Francesco ; Carria, Egidio ; Kimiagar, Salimeh ; Crupi, Isodiana ; Grimaldi, M.G.
Author_Institution :
Dipt. di Fis. ed Astron., Univ. di Catania, Catania, Italy
fDate :
3/1/2013 12:00:00 AM
Abstract :
Investigations have been carried out on laser-beam-induced nanoparticle (NP) formation in thin (5 nm) Au and Ag films on indium-tin-oxide substrate. After the irradiation the films were observed to break-up into NPs through a dewetting mechanism. This mechanism was investigated as a Rayleigh-instability-driven process. In fact, for each used laser fluence, the resulting Au and Ag NPs´ mean size and surface-to-surface mean distance were quantified and correlated between them in the framework of the Rayleigh-instability theory showing an excellent agreement.
Keywords :
gold; laser beam effects; metallic thin films; nanofabrication; nanoparticles; silver; Ag; Ag nanoparticle mean size; Au; Au nanoparticle mean size; ITO; Rayleigh-instability theory framework; Rayleigh-instability-driven dewetting; Rayleigh-instability-driven process; dewetting mechanism; indium-tin-oxide substrate; indium-tin-oxide surface; laser fluence; laser-beam-induced nanoparticle formation; nanosecond laser irradiations; size 5 nm; surface-to-surface mean distance; thin Ag film; thin Au film;
Journal_Title :
Micro & Nano Letters, IET
DOI :
10.1049/mnl.2012.0870
