Formation and evolution of nanoscale metal structures on ito surface by nanosecond laser irradiations of thin Au and Ag films

Isodiana Crupi; null Ruffino; Salimeh Kimiagar; null Carria; null Grimaldi; Isodiana Crupi; null Simone

Formation and evolution of nanoscale metal structures on ito surface by nanosecond laser irradiations of thin Au and Ag films

Isodiana Crupi, Ruffino, Salimeh Kimiagar, Carria, Grimaldi, Isodiana Crupi, Simone

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Risultato della ricerca: Article › peer review

45 Citazioni (Scopus)

Abstract

The effect of nanosecond laser irradiations on 5 nm thick sputter-deposited Au and Ag films on Indium-Tin-Oxide surface is investigated by atomic force microscopy (AFM) and scanning electron microscopy (SEM). After 500, 750, and 1000 mJ/cm 2 fluence irradiations, the breakup of the Au and Ag films into nanoscale islands is observed as a consequence of fast melting and solidification processes. The mean nanoparticles size and surface density are quantified, as a function of the laser fluence, by the AFM and SEM analyses. In particular, the comparison between the Au and Ag islands reveals the formation of larger islands in the case of Ag for each fixed fluence. The mechanism of the nanoscale islands formation is discussed, both for Au and Ag, in terms of the starting film thickness fluctuations (influencing the local threshold for melting), dewetting phenomenon and the Rayleigh criterion. © 2012 by American Scientific Publishers.

Lingua originale	English
pagine (da-a)	708-718
Numero di pagine	11
Rivista	Science of Advanced Materials
Volume	4
Stato di pubblicazione	Published - 2012

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abstract = "The effect of nanosecond laser irradiations on 5 nm thick sputter-deposited Au and Ag films on Indium-Tin-Oxide surface is investigated by atomic force microscopy (AFM) and scanning electron microscopy (SEM). After 500, 750, and 1000 mJ/cm 2 fluence irradiations, the breakup of the Au and Ag films into nanoscale islands is observed as a consequence of fast melting and solidification processes. The mean nanoparticles size and surface density are quantified, as a function of the laser fluence, by the AFM and SEM analyses. In particular, the comparison between the Au and Ag islands reveals the formation of larger islands in the case of Ag for each fixed fluence. The mechanism of the nanoscale islands formation is discussed, both for Au and Ag, in terms of the starting film thickness fluctuations (influencing the local threshold for melting), dewetting phenomenon and the Rayleigh criterion. {\textcopyright} 2012 by American Scientific Publishers.",

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T1 - Formation and evolution of nanoscale metal structures on ito surface by nanosecond laser irradiations of thin Au and Ag films

AU - Crupi, Isodiana

AU - Ruffino, null

AU - Kimiagar, Salimeh

AU - Carria, null

AU - Grimaldi, null

AU - Crupi, Isodiana

AU - Simone, null

PY - 2012

Y1 - 2012

N2 - The effect of nanosecond laser irradiations on 5 nm thick sputter-deposited Au and Ag films on Indium-Tin-Oxide surface is investigated by atomic force microscopy (AFM) and scanning electron microscopy (SEM). After 500, 750, and 1000 mJ/cm 2 fluence irradiations, the breakup of the Au and Ag films into nanoscale islands is observed as a consequence of fast melting and solidification processes. The mean nanoparticles size and surface density are quantified, as a function of the laser fluence, by the AFM and SEM analyses. In particular, the comparison between the Au and Ag islands reveals the formation of larger islands in the case of Ag for each fixed fluence. The mechanism of the nanoscale islands formation is discussed, both for Au and Ag, in terms of the starting film thickness fluctuations (influencing the local threshold for melting), dewetting phenomenon and the Rayleigh criterion. © 2012 by American Scientific Publishers.

AB - The effect of nanosecond laser irradiations on 5 nm thick sputter-deposited Au and Ag films on Indium-Tin-Oxide surface is investigated by atomic force microscopy (AFM) and scanning electron microscopy (SEM). After 500, 750, and 1000 mJ/cm 2 fluence irradiations, the breakup of the Au and Ag films into nanoscale islands is observed as a consequence of fast melting and solidification processes. The mean nanoparticles size and surface density are quantified, as a function of the laser fluence, by the AFM and SEM analyses. In particular, the comparison between the Au and Ag islands reveals the formation of larger islands in the case of Ag for each fixed fluence. The mechanism of the nanoscale islands formation is discussed, both for Au and Ag, in terms of the starting film thickness fluctuations (influencing the local threshold for melting), dewetting phenomenon and the Rayleigh criterion. © 2012 by American Scientific Publishers.

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SN - 1947-2935

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JO - Science of Advanced Materials

JF - Science of Advanced Materials

ER -

Formation and evolution of nanoscale metal structures on ito surface by nanosecond laser irradiations of thin Au and Ag films

Abstract

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