Simple experimental procedures to distinguish photothermal from hot-carrier processes in plasmonics

TitleSimple experimental procedures to distinguish photothermal from hot-carrier processes in plasmonics
Publication TypeJournal Article
Year of Publication2020
AuthorsG. Baffou, I. Bordacchini, A. Baldi, R. Quidant
JournalLight: Science & Applications
Volume9
Pagination108
Date Published06/2020
Abstract

Light absorption and scattering of plasmonic metal nanoparticles can lead to non-equilibrium charge carriers, intense electromagnetic near-fields, and heat generation, with promising applications in a vast range of fields, from chemical and physical sensing to nanomedicine and photocatalysis for the sustainable production of fuels and chemicals. Disentangling the relative contribution of thermal and non-thermal contributions in plasmon-driven processes is, however, difficult. Nanoscale temperature measurements are technically challenging, and macroscale experiments are often characterized by collective heating effects, which tend to make the actual temperature increase unpredictable. This work is intended to help the reader experimentally detect and quantify photothermal effects in plasmon-driven chemical reactions, to discriminate their contribution from that due to photochemical processes and to cast a critical eye on the current literature. To this aim, we review, and in some cases propose, seven simple experimental procedures that do not require the use of complex or expensive thermal microscopy techniques. These proposed procedures are adaptable to a wide range of experiments and fields of research where photothermal effects need to be assessed, such as plasmonic-assisted chemistry, heterogeneous catalysis, photovoltaics, biosensing, and enhanced molecular spectroscopy.

DOI10.1038/s41377-020-00345-0
Division

MaSF

Department

NEA

PID

0ee0480d0c30981a03a115a657cb2b4d

Alternate TitleLight Sci. Appl.
LabelOA

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