Author
Listed:
- Anna Wach
(Jagiellonian University
Paul Scherrer Institut
Polish Academy of Sciences)
- Robert Bericat-Vadell
(Uppsala University)
- Camila Bacellar
(Paul Scherrer Institut)
- Claudio Cirelli
(Paul Scherrer Institut)
- Philip J. M. Johnson
(Paul Scherrer Institut)
- Rebeca G. Castillo
(Mülheim an der Ruhr)
- Vitor R. Silveira
(Uppsala University)
- Peter Broqvist
(Uppsala University)
- Jolla Kullgren
(Uppsala University)
- Alexey Maximenko
(Jagiellonian University)
- Tomasz Sobol
(Jagiellonian University)
- Ewa Partyka-Jankowska
(Jagiellonian University)
- Peter Nordlander
(Rice University
Rice University)
- Naomi J. Halas
(Rice University
Rice University
Rice University)
- Jakub Szlachetko
(Jagiellonian University)
- Jacinto Sá
(Polish Academy of Sciences
Uppsala University)
Abstract
The generation and dynamics of plasmon-induced hot carriers in gold nanoparticles offer crucial insights into nonequilibrium states for energy applications, yet the underlying mechanisms remain experimentally elusive. Here, we leverage ultrafast X-ray absorption spectroscopy (XAS) to directly capture hot carrier dynamics with sub-50 fs temporal resolution, providing clear evidence of plasmon decay mechanisms. We observe the sequential processes of Landau damping (~25 fs) and hot carrier thermalization (~1.5 ps), identifying hot carrier formation as a significant decay pathway. Energy distribution measurements reveal carriers in non-Fermi-Dirac states persisting beyond 500 fs and observe electron populations exceeding single-photon excitation energy, indicating the role of an Auger heating mechanism alongside traditional impact excitation. These findings deepen the understanding of hot carrier behavior under localized surface plasmon resonance, offering valuable implications for applications in photocatalysis, photovoltaics, and phototherapy. This work establishes a methodological framework for studying hot carrier dynamics, opening avenues for optimizing energy transfer processes in nanoscale plasmonic systems.
Suggested Citation
Anna Wach & Robert Bericat-Vadell & Camila Bacellar & Claudio Cirelli & Philip J. M. Johnson & Rebeca G. Castillo & Vitor R. Silveira & Peter Broqvist & Jolla Kullgren & Alexey Maximenko & Tomasz Sobo, 2025.
"The dynamics of plasmon-induced hot carrier creation in colloidal gold,"
Nature Communications, Nature, vol. 16(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-57657-1
DOI: 10.1038/s41467-025-57657-1
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