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Energy-dependent chemical interface damping induced by 1-decanethiol self-assembled monolayer on Au(111)
Publikationstyp
Journal Article
Date Issued
2026-02-11
Sprache
English
Author(s)
Matts, Olga
Volume
130
Issue
8
Start Page
3096
End Page
3101
Citation
Journal of Physical Chemistry C 130 (8): 3096-3101 (2026)
Publisher DOI
Scopus ID
Publisher
Soc.
The chemical interface damping (CID) effect increases the collision frequency of free electrons in metals by changes to the metal surface. We have now experimentally disentangled the two contributions to CID: induced roughness and direct charge transfer. The latter is an important area of research in photoelectrochemistry with potential applications in light-induced chemical reactions. We present a broadband investigation of the CID effect on Au(111) covered by a self-assembled monolayer of decanethiol. Spectroscopic ellipsometry measurements show a photon-energy-dependent increase of the collision frequency. We observe a constant, photon energy-independent contribution, which is attributed to induced roughness, and a contribution that linearly increases with photon energy from about 1 eV upward, which we attribute to direct charge transfer. The onset of the charge transfer mechanism corresponds to the occupied orbitals of thiols bound to the Au surface, as confirmed by density functional theory calculations.
Subjects
Charge transfer
Collisions
Gold
Interfaces
Thiols
DDC Class
530: Physics
620.11: Engineering Materials