Dark plasmon modes for efficient hot electron generation in multilayers of gold nanoparticles

Dark plasmon modes for efficient hot electron generation in multilayers of gold nanoparticles

The excitation of dark plasmons, i.e., coupled plasmon modes with a vanishing net dipole, is expected to favor Landau damping over radiative damping. Dark plasmon excitation might, therefore, lead to an increased absorption of energy within gold nanoparticles, resulting in a strong generation of hot...

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Veröffentlicht in:The Journal of chemical physics 2020-02, Vol.152 (6), p.064710-064710
Hauptverfasser: Hoeing, Dominik, Schulz, Florian, Mueller, Niclas S., Reich, Stephanie, Lange, Holger
Format: Artikel
Sprache:eng
Schlagworte:
Coupled modes
Dipoles
Energy absorption
Energy conversion
Excitation
Gold
Hot electrons
Landau damping
Multilayers
Nanoparticles
Physics
Plasmons
Thermalization (energy absorption)
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Zusammenfassung:The excitation of dark plasmons, i.e., coupled plasmon modes with a vanishing net dipole, is expected to favor Landau damping over radiative damping. Dark plasmon excitation might, therefore, lead to an increased absorption of energy within gold nanoparticles, resulting in a strong generation of hot electrons compared to the generation via bright plasmons. We performed transient-absorption spectroscopy on gold nanoparticle films to assess the initial electronic temperature before thermalization. We observe a significant increase in the electron–phonon coupling time when dark plasmon modes are excited in these films. The results indicate an efficient energy absorption due to the suppressed radiative decay of dark plasmon modes and a subsequent energy transformation into hot electrons.
ISSN:0021-9606
1089-7690
DOI:10.1063/1.5131696