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101 results on '"Gahl, Cornelius"'

1. Ultrafast Optical Control of Rashba Interactions in a TMDC Heterostructure

Author

Mittenzwey, Henry, Kumar, Abhijeet, Dhingra, Raghav, Watanabe, Kenji, Taniguchi, Takashi, Gahl, Cornelius, Bolotin, Kirill I., Selig, Malte, and Knorr, Andreas

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Physics - Optics, Quantum Physics
Abstract

We investigate spin relaxation dynamics of interlayer excitons in a MoSe2/MoS2 heterostructure induced by the Rashba effect. In such a system, Rashba interactions arise from an out-of-plane electric field due to photo-generated interlayer excitons inducing a phonon-assisted intravalley spin relaxation. We develop a theoretical description based on a microscopic approach to quantify the magnitude of Rashba interactions and test these predictions via time-resolved Kerr rotation measurements. In agreement with the calculations, we find that the Rashba-induced intravalley spin mixing becomes the dominating spin relaxation channel above T = 50 K. Our work identifies a previously unexplored spin-depolarization channel in heterostructures which can be used for ultrafast spin manipulation.

Published
2024

2. Local work-function manipulation by external optical stimulation

Author

Böhnke, Jan, Andres, Beatrice, Boie, Larissa, Richter, Angela, Gahl, Cornelius, Weinelt, Martin, and Bronsch, Wibke

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Strongly differing static dipole moments of the trans and cis isomers of photochromic azobenzene allow for optical switching the work function of azobenzene-functionalized self-assembled monolayers (SAMs). We apply these properties in a fundamental experiment to manipulate the area size of the switched SAM. Azobenzene molecules were excited by ultraviolet laser illumination and the transient isomerization profile of the SAM was spatially resolved recording photoemission electron microscopy (PEEM) images. Thereby we demonstrate the spatial tuning of the SAM work-function and discuss the role of the laser spot-profile in generating sharp edges or gradual changes of the work function.

Published
2024

3. Strain fingerprinting of exciton valley character

Author

Kumar, Abhijeet, Yagodkin, Denis, Rosati, Roberto, Bock, Douglas J, Schattauer, Christoph, Tobisch, Sarah, Hagel, Joakim, Höfer, Bianca, Kirchhof, Jan N, López, Pablo Hernández, Burfeindt, Kenneth, Heeg, Sebastian, Gahl, Cornelius, Libisch, Florian, Malic, Ermin, and Bolotin, Kirill I

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter
Abstract

Momentum-indirect excitons composed of electrons and holes in different valleys define optoelectronic properties of many semiconductors, but are challenging to detect due to their weak coupling to light. The identification of an excitons' valley character is further limited by complexities associated with momentum-selective probes. Here, we study the photoluminescence of indirect excitons in controllably strained prototypical 2D semiconductors (WSe$_2$, WS$_2$) at cryogenic temperatures. We find that these excitons i) exhibit valley-specific energy shifts, enabling their valley fingerprinting, and ii) hybridize with bright excitons, becoming directly accessible to optical spectroscopy methods. This approach allows us to identify multiple previously inaccessible excitons with wavefunctions residing in K, $\Gamma$, or Q valleys in the momentum space as well as various types of defect-related excitons. Overall, our approach is well-suited to unravel and tune intervalley excitons in various semiconductors., Comment: 9 pages, 4 figures, 1 table

Published
2023

5. Probing the formation of dark interlayer excitons via ultrafast photocurrent

Author

Yagodkin, Denis, Ankerhold, Elias, Kumar, Abhijeet, Richter, Johanna, Watanabe, Kenji, Taniguchi, Takashi, Gahl, Cornelius, and Bolotin, Kirill. I.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Optically dark excitons determine a wide range of properties of photoexcited semiconductors yet are hard to access via conventional spectroscopies. Here, we develop a time-resolved ultrafast photocurrent technique (trPC) to probe the formation dynamics of optically dark excitons. The nonlinear nature of the trPC makes it particularly sensitive to the formation of excitons occurring at the femtosecond timescale after the excitation. As proof of principle, we extract the interlayer exciton formation time 0.4~ps at 160 $\mu$J/cm$^2$ fluence in a MoS$_2$/MoSe$_2$ heterostructure and show that this time decreases with fluence. In addition, our approach provides access to the dynamics of carriers and their interlayer transport. Overall, our work establishes trPC as a technique to study dark excitons in various systems that are hard to probe by other approaches.

Published
2023

6. Spin/valley coupled dynamics of electrons and holes at the ${\text{MoS}_{2}-\text{MoSe}_{2}}$ interface

Author

Kumar, Abhijeet, Yagodkin, Denis, Stetzuhn, Nele, Kovalchuk, Sviatoslav, Melnikov, Alexey, Elliott, Peter, Sharma, Sangeeta, Gahl, Cornelius, and Bolotin, Kirill I.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The coupled spin and valley degrees of freedom in transition metal dichalcogenides (TMDs) are considered a promising platform for information processing. Here, we use a TMD heterostructure ${\text{MoS}_{2}-\text{MoSe}_{2}}$ to study optical pumping of spin/valley polarized carriers across the interface and to elucidate the mechanisms governing their subsequent relaxation. By applying time-resolved Kerr and reflectivity spectroscopies, we find that the photoexcited carriers conserve their spin for both tunneling directions across the interface. Following this, we measure dramatically different spin/valley depolarization rates for electrons and holes, $\sim 30\,{\text{ns}}^{-1}$ and $< 1\,{\text{ns}}^{-1}$, respectively and show that this difference relates to the disparity in the spin-orbit splitting in conduction and valence bands of TMDs. Our work provides insights into the spin/valley dynamics of free carriers unaffected by complex excitonic processes and establishes TMD heterostructures as generators of spin currents in spin/valleytronic devices., Comment: 15 + 6 pages; 4 + 3 figures

Published
2021
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7. Ultrafast photocurrents in MoSe$_2$ probed by terahertz spectroscopy

Author

Yagodkin, Denis, Nadvornik, Lukas, Gueckstock, Oliver, Gahl, Cornelius, Kampfrath, Tobias, and Bolotin, Kirill I.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics
Abstract

We use the terahertz (THz) emission spectroscopy to study femtosecond photocurrent dynamics in the prototypical 2D semiconductor, transition metal dichalcogenide MoSe$_2$. We identify several distinct mechanisms producing THz radiation in response to an ultrashort ($30\,$fs) optical excitation in a bilayer (BL) and a multilayer (ML) sample. In the ML, the THz radiation is generated at a picosecond timescale by out-of-plane currents due to the drift of photoexcited charge carriers in the surface electric field. The BL emission is generated by an in-plane shift current. Finally, we observe oscillations at about $23\,$THz in the emission from the BL sample. We attribute the oscillations to quantum beats between two excitonic states with energetic separation of $\sim100\,$meV., Comment: This is the Accepted Manuscript version of an article accepted for publication in 2D Materials. IOP Publishing Ltd is not responsible for any errors or omissions in this version of the manuscript or any version derived from it. The Version of Record is available online at https://doi.org/10.1088/2053-1583/abd527 7 pages, 9 figures

Published
2020
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9. Optical properties of azobenzene-functionalized self-assembled monolayers: Intermolecular coupling and many-body interactions

Author

Cocchi, Caterina, Moldt, Thomas, Gahl, Cornelius, Weinelt, Martin, and Draxl, Claudia

Subjects
Condensed Matter - Materials Science
Abstract

In a joint theoretical and experimental work the optical properties of azobenzene-functionalized self-assembled monolayers (SAMs) are studied at different molecular packing densities. Our results, based on density-functional and many-body perturbation theory, as well as on differential reflectance (DR) spectroscopy, shed light on the microscopic mechanisms ruling photo-absorption in these systems. While the optical excitations are intrinsically excitonic in nature, regardless of the molecular concentration, in densely-packed SAMs intermolecular coupling and local-field effects are responsible for a sizable weakening of the exciton binding strength. Through a detailed analysis of the character of the electron-hole pairs, we show that distinct excitations involved in the photo-isomerization at low molecular concentrations are dramatically broadened by intermolecular interactions. Spectral shifts in the calculated DR spectra are in good agreement with the experimental results. Our findings represent an important step forward to rationalize the excited-state properties of these complex materials.

Published
2016
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10. Hot electron driven enhancement of spin-lattice coupling in 4f ferromagnets observed by femtosecond x-ray magnetic circular dichroism

Author

Wietstruk, Marko, Melnikov, Alexey, Stamm, Christian, Kachel, Torsten, Pontius, Niko, Sultan, Muhammad, Gahl, Cornelius, Weinelt, Martin, Dürr, Hermann A., and Bovensiepen, Uwe

Subjects
Condensed Matter - Materials Science
Abstract

Due to an error this article has been annouced as a new article instead of a corrected version of article 1010.1374., Comment: This paper has been withdrawn

Published
2010

12. Anisotropy of Quasiparticle Lifetimes and the Role of Disorder for Ultrafast Electron Dynamics in Graphite

Author

Moos, Gunnar, Gahl, Cornelius, Fasel, Roman, Wolf, Martin, and Hertel, Tobias

Subjects
Condensed Matter
Abstract

Femtosecond time-resolved photoemission of photoexcited electrons in highly oriented pyrolytic graphite (HOPG) provides strong evidence for anisotropies of quasiparticle (QP) lifetimes. Indicative of such anisotropies is a pronounced anomaly in the energy dependence of QP lifetimes between 1.1 eV and 1.5 eV - the vicinity of a saddle point in the graphite bandstructure. This is supported by recent ab initio calculations and a comparison with experiments on defect-enriched HOPG which reveal that disorder, e.g. defects or phonons, increases electron energy relaxation rates.

Published
2001

14. Spin/Valley Coupled Dynamics of Electrons and Holes at the MoS2–MoSe2 Interface

Author

Kumar, Abhijeet, Iagodkin, Denis, Stetzuhn, Nele, Kovalchuk, Sviatoslav, Melnikov, Alexey, Elliott, Peter, Sharma, Sangeeta, Gahl, Cornelius, and Bolotin, Kirill

Subjects
500 Naturwissenschaften und Mathematik::530 Physik::539 Moderne Physik, Spin/valley dynamics, Transition metal dichalcogenides (TMDs), Time-resolved Kerr rotation, 2-D semiconductor heterostructures, Opto-spintronics
Abstract

The coupled spin and valley degrees of freedom in transition metal dichalcogenides (TMDs) are considered a promising platform for information processing. Here, we use a TMD heterostructure MoS2–MoSe2 to study optical pumping of spin/valley polarized carriers across the interface and to elucidate the mechanisms governing their subsequent relaxation. By applying time-resolved Kerr and reflectivity spectroscopies, we find that the photoexcited carriers conserve their spin for both tunneling directions across the interface. Following this, we measure dramatically different spin/valley depolarization rates for electrons and holes, ∼30 and

Published
2022
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17. Effect of Rashba splitting on ultrafast carrier dynamics in BiTeI

Author

German Research Foundation, Max Planck Society, Russian Science Foundation, Saint Petersburg State University, German-Russian Interdisciplinary Science Center, Ketterl, Anna S., Andres, Beatrice, Polverigiani, Marco, Voroshnin, Vladimir Yu., Gahl, Cornelius, Kokh, Konstantin A., Tereshchenko, Oleg E., Chulkov, Eugene V., Shikin, Alexander M., Weinelt, Martin, German Research Foundation, Max Planck Society, Russian Science Foundation, Saint Petersburg State University, German-Russian Interdisciplinary Science Center, Ketterl, Anna S., Andres, Beatrice, Polverigiani, Marco, Voroshnin, Vladimir Yu., Gahl, Cornelius, Kokh, Konstantin A., Tereshchenko, Oleg E., Chulkov, Eugene V., Shikin, Alexander M., and Weinelt, Martin

Abstract

Narrow-gap semiconductors with strong spin-orbit coupling such as bismuth tellurohalides have become popular candidates for spintronic applications. But driving spin-polarized photocurrents in these materials with circularly polarized light requires picosecond lifetimes of the photoexcited carriers and low spin-flip scattering rates. In search of these essential ingredients, we conducted an extensive study of the carrier dynamics on the Te-terminated surface of BiTeI, which exhibits a giant Rashba splitting of both surface and bulk states. We observe a complex interplay of surface and bulk dynamics after photoexcitation. Carriers are rapidly rearranged in momentum space by quasielastic phonon and defect scattering, while a phonon bottleneck leads to a slow equilibration between bulk electrons and lattice. The particular band dispersion opens an inelastic decay channel for hot carriers in the form of plasmon excitations, which are immanent to Rashba-split systems. These ultrafast scattering processes effectively redistribute excited carriers in momentum and energy space and thereby inhibit spin-polarized photocurrents.

Published
2021

19. Ultrafast electron dynamics at ice-metal interfaces: Competition between heterogeneous electron transfer and solvation

Author

Stahler, Julia, Gahl, Cornelius, Bovensiepen, Uwe, and Wolf, Martin

Subjects
Charge transfer -- Research, Solvation -- Research, Electrons -- Diffraction, Electrons -- Research, Chemicals, plastics and rubber industries
Abstract

A study was conducted to obtain insight into the mechanisms of heterogeneous electron transfer by a combined investigation of electron solvation and interfacial charge transfer at the water-metal interface. Electrons are photoinjected from the metal substrate into the utrathin ice layer where they localize and form solvated electrons, and as a result of the subsequent dynamical evolution of the molecular environment, a solvation shell and a potential barrier surrounding the electron, which decouples the electron from the metal, are formed.

Published
2006

20. Effect of Rashba splitting on ultrafast carrier dynamics in BiTeI

Author

Ketterl, Anna S., primary, Andres, Beatrice, additional, Polverigiani, Marco, additional, Voroshnin, Vladimir, additional, Gahl, Cornelius, additional, Kokh, Konstantin A., additional, Tereshchenko, Oleg E., additional, Chulkov, Evgueni V., additional, Shikin, Alexander, additional, and Weinelt, Martin, additional

Published
2021
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22. Origin of spin-polarized photocurrents in the topological surface states of Bi2 Se3

Author

Ketterl, A. S., Otto, Sebastian, Bastian, M., Andres, Beatrice, Gahl, Cornelius, Minár, Jan, Ebert, Hubert, Braun, Jürgen, Tereshchenko, Oleg Evgenievich, Kokh, Konstantin A., Fauster, Thomas, and Weinelt, Martin

Subjects
ARPES, topological insulators, KKR, ARPES, topologické izolatory, KKR
Abstract

Študovali sme spinovo polarizované foroprúdy v topologickom materiály Bi2Se3. Za pomoci 2PPE ARPES a teoretickými výpočtamy sme zistili že obecně platí, že trojnásobně symetrický dichroický signál nepodporuje jednosměrné fotoproudy. Nicméně, zbytková asymetrie až do 3,5% v našich fotoemisních spektrech je kompatibilní s dříve pozorovanými helickými efektami. For the generation of spin-polarized photocurrents in topological insulators, a coupling between photon angular momentum and electron spin is often assumed. Such a coupling seems to be supported by dichroism reported in E(ky)-intensity maps in photoemission. We show in three dimensional two-photon photoemission and one-step photoemission calculations that the circular dichroism is in fact threefold in E(kx,k y) maps although it may appear antisymmetric in E(ky). The threefold symmetry is inconsistent with the previously assumed coupling between photon momentum and electron’s chiral spin via the orbital momentum. Instead it reflects the surface point group. The only antisymmetric patterns appear in the energy range in which surface and bulk states hybridize. In general, a threefold-symmetric dichroic signal does not support unidirectional photocurrents. Nevertheless, the residual asymmetry of up to 3.5% in our photoemission spectra is compatible with previously observed helicity-dependent photocurrents.

Published
2018

25. Structure and excitonic coupling in self-assembling monolayers of azobenzene-functionalized alkanethiols

Author

Gahl, Cornelius, Schmidt, Roland, Brete, Daniel, McNellis, Erik R., Freyer, Wolfgang, Carley, Robert, Reuter, Karsten, and Weinelt, Martin

Subjects
Alkanethiolates -- Chemical properties, Alkanethiolates -- Structure, Azo compounds -- Chemical properties, Azo compounds -- Structure, Benzene -- Structure, Benzene -- Chemical properties, Benzene -- Optical properties, Density functionals -- Usage, Ultraviolet spectroscopy -- Usage, X-ray spectroscopy -- Usage, Chemistry
Abstract

Optical properties and the geometric structure of self-assembled monolayers of azobenzene-functionalized alkanethiols are examined by UV/visible and near edge X-ray absorption fine structure spectroscopy and density functional theory. The analysis of the energetic shifts has substantiated sizable excitonic coupling among the azobenzene chromophores as a vital mechanism that hinders trans to cis isomerization in densely packed self-assembled monolayers.

Published
2010

28. Nonlinear optical response of photochromic azobenzene-functionalized self- assembled monolayers

Author

Schulze, Michael, Utecht, Manuel, Moldt, Thomas, Przyrembel, Daniel, Gahl, Cornelius, Weinelt, Martin, Saalfrank, Peter, and Tegeder, Petra

Abstract

The combination of photochromic and nonlinear optical (NLO) properties of azobenzene-functionalized self-assembled monolayers (SAMs) constitutes an intriguing step towards novel photonic and optoelectronic devices. By utilizing the second-order NLO process of second harmonic generation (SHG), supported by density-functional theory and correlated wave function method calculations, we demonstrate that the photochromic interface provides the necessary prerequisites en route towards possible future technical applications: we find a high NLO contrast on the order of 16% between the switching states. These are furthermore accessible reversibly and with high efficiencies in terms of cross sections on the order of 10−18 cm2 for both photoisomerization reactions, i.e., drivable by means of low-power LED light sources. Finally, both photostationary states (PSSs) are thermally stable at ambient conditions.

Published
2015

29. Solvation dynamics and evolution of the spatial extent of photoinjected electrons in D2O/Cu(111)

Author

Bovensiepen, Uwe, Gahl, Cornelius, and Wolf, Martin

Subjects
Electrochemistry -- Research, Water chemistry -- Research, Photoelectrons -- Research, Solvation -- Research, Chemicals, plastics and rubber industries
Abstract

The sensitivity of angle-resolved two-photon-photoelectron on the electron momentum parallel to the surface and the extraction of information on the spatial extent of the solvated electron in ice layers on a metal substrate are explored. The results are discussed in comparison to the present understanding of electron solvation dynamics in liquid water.

Published
2003

36. Elektronentransfer- und Solvatisierungsdynamik in Eis adsorbiert auf Metalloberflächen

Author

Gahl, Cornelius

Subjects
electron solvation dynamics adsorbed water Cu(111) Ru(001), 73.90.+f, 500 Naturwissenschaften und Mathematik::530 Physik::530 Physik, 78.47.+p, 79.60.Dp
Abstract

Titel, Kurzfassung und Inhaltsverzeichnis 1\. Einleitung 1 2\. Grundlagen 7 3\. Experiment 49 4\. Elektronensolvatisierung in amorphen Eisschichten 83 5\. Delokalisierte Zustände in kristallinen Eisschichten 113 6\. Elektroneneinfang in kristallinen Eisschichten 125 7\. Zusammenfassung und Ausblick 157 A Bildladungszustände vor der Ru(001)-Oberfläche 161 Literaturverzeichnis 167 Apparative Komponenten, Publikationen, Danksagung 183, Mittels zeit- und winkelaufgelöster Zwei-Photonen-Photoemissionsspektroskopie (2PPE) ist die Dynamik von Überschusselektronen in molekular dünnen Eisschichten auf Metalloberflächen untersucht worden. Ziel dieser Arbeit ist es, zum Verständnis fundamentaler Wechselwirkungsmechanismen zwischen einem Elektron und einer molekularen Umgebung beizutragen. Insbesondere wird der Einfluss der Struktur auf die Elektronendynamik aufgezeigt. Es wurden unterschiedliche Lokalisierungsphänomene in amorphen und in kristallinen Eisschichten gefunden. In amorphen Schichten findet eine Solvatisierung lokalisierter Zustände am Leitungsbandboden der Eisschicht statt. Der Solvatisierungsprozess äußert sich einerseits in einer kontinuierlichen energetischen Verschiebung des elektronischen Zustands, die auf der Cu(111)-Oberfläche über 1.5 ps verfolgt werden konnte. Darüber hinaus ist die Stabilisierung mit einer zunehmenden räumlichen Einschnürung der Wellenfunktion verknüpft, die sich in einer Verbreiterung der Impulsverteilung parallel zur Oberfläche und in einer Verringerung der Rücktransferrate solvatisierter Elektronen ins Metallsubstrat äußert. Die Solvatisierungsdynamik zeigt eine ausgeprägte Bedeckungsabhängigkeit, die darauf zurückgeführt wird, dass bei Bedeckungen, The dynamics of excess electrons in molecular thin ice films on metal surfaces have been investigated using time- and angle-resolved two-photon- photoemission spectroscopy (2PPE). The work aims at a fundamental understanding of interaction mechanisms between an electron and a molecular environment and focuses on the correlation of structure and electron dynamics. For amorphous and crystalline ice layers different phenomena of electron localization are found. In the amorphous case the ultrafast solvation dynamics of localized electrons which starts at the bottom of the conduction band is studied in the time domain. The solvation process manifests itself as a continuous energetic shift of the electronic state, which can be followed over 1.5 ps for D2O on a Cu(111) substrate. Furthermore this energetic stabilization is accompanied by an increasing spatial constriction of the electron wave function, leading to a broadening of the momentum distribution parallel to the surface and to a decrease of the back transfer rate of solvated electrons. The electron solvation dynamics show a pronounced coverage dependence. At coverages

Published
2004
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44. A femtosecond X-ray/optical cross-correlator

Author

Gahl, Cornelius, primary, Azima, Armin, additional, Beye, Martin, additional, Deppe, Martin, additional, Döbrich, Kristian, additional, Hasslinger, Urs, additional, Hennies, Franz, additional, Melnikov, Alexej, additional, Nagasono, Mitsuru, additional, Pietzsch, Annette, additional, Wolf, Martin, additional, Wurth, Wilfried, additional, and Föhlisch, Alexander, additional

Published
2008
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49. Ultrafast spin transfer and its impact on the electronic structure.

Author

Bobowski, Kamil, Xinwei Zheng, Frietsch, Björn, Lawrenz, Dominic, Bronsch, Wibke, Gahl, Cornelius, Andres, Beatrice, Strüber, Christian, Carley, Robert, Teichmann, Martin, Scherz, Andreas, Molodtsov, Serguei, Cacho, Cephise, Chapman, Richard T., Springate, Emma, and Weinelt, Martin

Subjects
*ELECTRONIC structure, *MAGNETIC alloys, *SPIN polarization, *VALENCE bands, *FERROMAGNETIC materials, *MOMENTUM transfer, *CHARGE transfer
Abstract

Optically induced intersite spin transfer (OISTR) promises manipulation of spin systems within the ultimate time limit of laser excitation. Following its prediction, signatures of ultrafast spin transfer between oppositely aligned spin sublattices have been observed in magnetic alloys and multilayers. However, it is known neither from theory nor from experiment whether the band structure immediately follows the ultrafast change in spin polarization or whether the exchange split bands remain rigid. We show that ultrafast spin transfer occurs even in ferromagnetic gadolinium metal. Charge transfer between localized surface and extended valence-band states leads to a decrease of the surface spin polarization. This synchronously alters the exchange splitting of the bulk valence bands during laser excitation. Moreover, the onset of demagnetization can be tuned by over 200 fs by changing the temperature-dependent spin mixing. Our results show a promising route to ultrafast control of the magnetization, widening the impact and applicability of OISTR. [ABSTRACT FROM AUTHOR]

Published
2024
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50. Dynamics and reactivity of trapped electrons on supported ice crystallites.

Author

Stähler J, Gahl C, and Wolf M

Subjects
Computer Simulation, Metals chemistry, Models, Chemical, Solutions chemistry, Solvents, Surface Properties, Electrons, Ice, Water chemistry
Abstract

The solvation dynamics and reactivity of localized excess electrons in aqueous environments have attracted great attention in many areas of physics, chemistry, and biology. This manifold attraction results from the importance of water as a solvent in nature as well as from the key role of low-energy electrons in many chemical reactions. One prominent example is the electron-induced dissociation of chlorofluorocarbons (CFCs). Low-energy electrons are also critical in the radiation chemistry that occurs in nuclear reactors. Excess electrons in an aqueous environment are localized and stabilized by the local rearrangement of the surrounding water dipoles. Such solvated or hydrated electrons are known to play an important role in systems such as biochemical reactions and atmospheric chemistry. Despite numerous studies over many years, little is known about the microscopic details of these electron-induced chemical processes, and interest in the fundamental processes involved in the reactivity of trapped electrons continues. In this Account, we present a surface science study of the dynamics and reactivity of such localized low-energy electrons at D(2)O crystallites that are supported by a Ru(001) single crystal metal surface. This approach enables us to investigate the generation and relaxation dynamics as well as dissociative electron attachment (DEA) reaction of excess electrons under well-defined conditions. They are generated by photoexcitation in the metal template and transferred to trapping sites at the vacuum interface of crystalline D(2)O islands. In these traps, the electrons are effectively decoupled from the electronic states of the metal template, leading to extraordinarily long excited state lifetimes on the order of minutes. Using these long-lived, low-energy electrons, we study the DEA to CFCl(3) that is coadsorbed at very low concentrations (∼10(12) cm(-2)). Using rate equations and direct measurement of the change of surface dipole moment, we estimated the electron surface density for DEA, yielding cross sections that are orders of magnitude higher than the electron density measured in the gas phase.

Published
2012
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