"Quantitative study of the photothermal properties of metallic nanowire networks"

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Bell A.P, Fairfield J.A, McCarthy E.K, Mills S, Boland J.J, Baffou G, McCloskey D, "Quantitative study of the photothermal properties of metallic nanowire networks", ACS Nano, 9, 5, 2015, 5551 - 5558

Abstract

In this article, we present a comprehensive investigation of the photothermal properties of plasmonic nanowire networks. We measure the local steady-state temperature increase, heat source density, and absorption in Ag, Au, and Ni metallic nanowire networks under optical illumination. This allows direct experimental confirmation of increased heat generation at the junction between two metallic nanowires and stacking-dependent absorption of polarized light. Due to thermal collective effects, the local temperature distribution in a network is shown to be completely delocalized on a micrometer scale, despite the nanoscale features in the heat source density. Comparison of the experimental temperature profile with numerical simulation allows an upper limit for the effective thermal conductivity of a Ag nanowire network to be established at 43 Wm–1 K–1 (0.1 κbulk).

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Export Date: 18 August 2015

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Sponsor: European Research Council (ERC)
Grant Number: 321160

Author's Homepage: http://people.tcd.ie/jboland
Type of material: Journal Article