Journal ArticleDOI
Chemically Induced Electronic Excitations at Metal Surfaces
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TLDR
This work observed reaction-induced electron excitations during gas interactions with polycrystalline silver for a variety of species with adsorption energies between 0.2 and 3.5 electron volts, and the measured time dependence of the electron current can be understood in terms of the strength and mechanism of Adsorption.Abstract:
The energy released in low-energy chemisorption or physisorption of molecules on metal surfaces is usually expected to be dissipated by surface vibrations (phonons). Theoretical descriptions of competing electronic excitations are incomplete, and experimental observation of excited charge carriers has been difficult except at energies high enough to eject electrons from the surface. We observed reaction-induced electron excitations during gas interactions with polycrystalline silver for a variety of species with adsorption energies between 0.2 and 3.5 electron volts. The probability of exciting a detectable electron increases with increasing adsorption energy, and the measured time dependence of the electron current can be understood in terms of the strength and mechanism of adsorption.read more
Citations
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Band bending in semiconductors: chemical and physical consequences at surfaces and interfaces.
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Intermetallic Nanocrystals: Syntheses and Catalytic Applications
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Ultra-fast dynamics of electron thermalization, cooling and transport effects in Ru(001)
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References
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Journal ArticleDOI
The interaction of water with solid surfaces: Fundamental aspects
TL;DR: In this paper, the authors compare and discuss recent experimental and theoretical results in the field of H2O-solid interactions, and emphasize studies of low (submonolayer) coverages of water on well-characterized, single-crystal surfaces of metals, semiconductors and oxides.
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Femtosecond time-resolved two-photon photoemission studies of electron dynamics in metals
Hrvoje Petek,S. Ogawa +1 more
TL;DR: Femtosecond time-resolved two-photon photoemission has attracted particularly strong interest because it incorporates many of the surface analytical capabilities of photo-emission and inverse photo emission, with time-resolution approaching the fundamental response of electrons to optical excitation as mentioned in this paper.
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Atomic and molecular oxygen adsorption on Ag(111)
TL;DR: The adsorption of O 2 on Ag(111) between 150 and 650 K has been studied with thermal desorption spectroscopy, Auger and photoelectron spectroscopies, and low-energy electron diffraction as mentioned in this paper.
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The dissociation of diatomic molecules at surfaces
TL;DR: In this article, the authors present an exposition of the various theoretical models currently in use for describing the dynamics of molecular dissociation at surfaces and the methods that have been developed for treating the dissipative motion as the molecule nears the surface are presented.
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Electron-Hole Pair Creation at Ag and Cu Surfaces by Adsorption of Atomic Hydrogen and Deuterium
TL;DR: In this paper, hot electrons and holes created at Ag and Cu surfaces by adsorption of thermal hydrogen and deuterium atoms have been measured directly with ultrathin metal film Schottky diode detectors on Si(111).