Your search keyword '"Metals -- Surfaces"' showing total 17 results

1. Dynamical steering and electronic excitation in NO scattering from a gold surface

Author

Shenvi, Neil, Roy, Sharani, and Tully, John C.

Subjects

Electrons -- Scattering, Electrons -- Research, Metals -- Surfaces, Metals -- Electric properties, Gold -- Electric properties, Nitric oxide -- Chemical properties, Science and technology

Abstract

Nonadiabatic coupling of nuclear motion to electronic excitations at metal surfaces is believed to influence a host of important chemical processes and has generated a great deal of experimental and theoretical interest. We applied a recently developed theoretical framework to examine the nature and importance of nonadiabatic behavior in a system that has been extensively studied experimentally: the scattering of vibrationally excited nitric oxide molecules from a Au(111) surface. We conclude that the nonadiabatic transition rate depends strongly on both the N-O internuclear separation and the molecular orientation and, furthermore, that molecule-surface forces can steer the molecule into strong-coupling configurations. This mechanism elucidates key features of the experiments and provides several testable predictions regarding the dependence of vibrational energy transfer on the initial vibrational energy, molecular orientation, and incident angle. 10.1126/science.1179240

Published

2009

2. Inverse velocity dependence of vibrationally promoted electron emission from a metal surface

Author

Nahler, N.H., White, J.D., LaRue, J., Auerbach, D.J., and Wodtke, A.M.

Subjects

Surface chemistry -- Research, Molecular dynamics -- Observations, Electrons -- Emission, Electrons -- Observations, Metals -- Surfaces, Metals -- Chemical properties, Metals -- Electric properties

Published

2008

3. Frontiers in surface scattering simulations

Author

Kroes, Geert-Jan

Subjects

Scattering (Physics) -- Models, Simulation methods -- Methods, Molecular dynamics -- Models, Metals -- Surfaces, Metals -- Properties, Metals -- Models

Published

2008

4. Time-resolved investigation of coherently controlled electric currents at a metal surface

Author

Gudde, J., Rohleder, M., Meier, T., Koch, S.W., and Hofert, U.

Subjects

Electric currents -- Research, Metals -- Surfaces, Metals -- Electric properties

Published

2007

5. The nature of the metal-metal bond in bimetallic surfaces

Author

Rodriguez, Jose A. and Goodman, D. Wayne

Subjects

Metal bonding -- Research, Metals -- Surfaces, Laminated metals -- Research, Science and technology, Research

Abstract

The formation of a surface metal-metal bond can produce large perturbations in the electronic, chemical, and catalytic properties of a metal. Recent studies indicate that charge transfer is an important component in surface metal-metal bonds that involve dissimilar elements. The larger the charge transfer, the stronger the cohesive energy of the bimetallic bond. On a surface, the formation of a heteronuclear metal-metal bond induces a flow of electron density toward the element with the larger fraction of empty states in its valence band. This behavior is completely contrary to that observed in bulk alloys, indicating that the nature of a heteronuclear metal-metal bond depends strongly on the structural geometry of the bimetallic system., In general, metals are elements characterized by the presence of a large number of valence orbitals that can donate or accept electrons. Isolated metal atoms are unstable, very reactive, and [...]

Published

1992

6. Interband electronic excitation-assisted atomic-scale restructuring of metal surfaces by nanosecond pulsed light

Author

Ernst, Hans-Joachim, Charra, Fabrice, and Douillard, Ludovic

Subjects

Metals -- Surfaces, Lasers -- Research, Science and technology, Laser, Research

Abstract

Interaction of high-power laser light with materials often causes irreversible damage of the near-surface region. It is shown that copper single-crystal surfaces can be patterned by laser light. Irradiation with green light produced adatoms and vacancies, which self-organized into nanoscale pyramids. This restructuring can be removed by annealing. In contrast to green light, infrared laser irradiation at equivalent absorbed energy density did not produce any structural change. This, for metallic systems, unforeseen spectral difference in laser light action points to a concerted process as the source for structural modification, which involves long-lived primary excitation of localized d-electrons through interband transition together with phonon excitation., The creation and dissipation of electronic excitation are fundamental for a variety of physical and chemical processes. Lasers, as a source of primary excitation, play an expanding role in material [...]

Published

1998

7. Time-resolved coherent photoelectron spectroscopy of quantized electronic states on metal surfaces

Author

Hofer, U.

Subjects

Energy levels (Quantum mechanics) -- Research, Metals -- Surfaces, Science and technology, Research

Abstract

Time-resolved two-photon photoemission in combination with the coherent excitation of several quantum states was used to study the ultrafast electron dynamics of image-potential states on metal surfaces. For a (100) surface of copper, the spectroscopy of quantum beats made previously unresolved high-order states (quantum number n [is greater than or equal to] 4) experimentally accessible. By exciting electrons close to the vacuum level, electron wave packets could be created and detected that described the quasi-classical periodic motion of weakly bound electrons. They traveled more than 200 A away from the surface and oscillated back and forth with a period of 800 femtoseconds., Photoelectron spectroscopy has developed into one of the most versatile and successful tools for surface studies. Particularly attractive features of this technique are the high surface sensitivity associated with the [...]

Published

1997

8. Electron Dynamics at Surfaces

Author

Wolf, Martin and Gerhard, Ertl

Subjects

Electrons -- Scattering, Electrodynamics -- Research -- Measurement, Metals -- Surfaces, Chemical reactions -- Measurement -- Research, Science and technology, Research, Measurement

Abstract

Many processes at surfaces, from chemical reactions to electron transfer, involve the creation and decay of electronically excited states. At metal surfaces, the density of electrons is high, leading to [...]

Published

2000

9. Beyond the particle in the box

Author

Wallden, Lars

Subjects

Physics -- Research, Physics -- Analysis, Electron configuration -- Testing, Electron configuration -- Analysis, Metals -- Surfaces, Metals -- Research, Metals -- Analysis, Metals -- Structure

Published

2006

10. Chemists concoct quick-change surface. (Chemical Engineering)

Author

Service, Robert F.

Subjects

Chemical engineering -- Research, Metals -- Surfaces, Chemical engineering research -- Research, Science and technology, Research

Abstract

A flick of a switch lights up the room, powers up the television, and turns on a host of other gadgets large and small. Now a group of chemists and [...]

Published

2003

11. Water on a metal surface. (Perspectives: Surface Science)

Author

Menzel, Dietrich

Subjects

Oxygen -- Research, Metals -- Surfaces, Molecules -- Research, Water -- Research, Physics -- Research, Science and technology, Research

Abstract

The interaction of water with solid surfaces plays a crucial role in catalysis and weathering. The structure and properties of the first water layers on well-defined metal surfaces have been [...]

Published

2002

12. Atomic arrangements at metal surfaces

Author

Noonan, J.R. and Davis, H.L.

Subjects

Crystallography -- Research, Metals -- Surfaces, Science and technology, Research

Abstract

Atomic Arrangements at Metal Surfaces THE TERMINATION OF A SOLID CREATES A SURFACE. THIS statement is so obvious that many of its consequences are often overlooked. For example, the corrosion [...]

Published

1986

13. NMR studies of simple molecules on metal surfaces

Author

Slichter, Charles P.

Subjects

Nuclear magnetic resonance -- Usage -- Research, Metals -- Surfaces, Molecules -- Research -- Usage, Science and technology, Usage, Research

Abstract

NMR Studies of Simple Molecules on Metal Surfaces ONE OF THE MOST ACTIVE AREAS OF RESEARCH TODAY IS the study of metal surfaces. While a broad range of scientific questions [...]

Published

1986

14. Electrically conductive metallomacrocyclic assemblies

Author

Marks, Tobin J.

Subjects

Macromolecules -- Research, Chemical research -- Observations -- Research, Metals -- Surfaces, Molecules -- Research, Science and technology, Observations, Research

Abstract

Until only a few years ago, the idea that a traditional organic or metal-organic substance could exhibit the electrical, optical, and magnetic properties of a metal seemed a complete contradiction [...]

Published

1985

15. Laser-induced fluorescence and bonding of metal dimers

Author

Bondybey, V.E.

Subjects

Spectrograph -- Usage, Chemical research -- Research -- Usage, Laser spectroscopy -- Usage -- Research, Metals -- Surfaces, Science and technology, Usage, Research

Abstract

Small metal clusters and related molecules have been the focus of increasing attention in recent years. This interest stems, in part, from the broader interest in catalysis and from the [...]

Published

1985

16. More than skin deep

Author

Plummer, Ward

Subjects

Energy levels (Quantum mechanics) -- Research, Metals -- Surfaces, Science and technology, Research

Abstract

Electrons are normally not supposed to wander very far from metal surfaces. Yet on page 1480 of this issue, Hofer et al.[1] report an interdisciplinary investigation that catches surface electrons [...]

Published

1997

17. Calorimetric measurement of the energy difference between two solid surface phases

Author

Yeo, Y.Y., Wartnaby, C.E., and King, D.A.

Subjects

Phase transformations (Statistical physics) -- Research, Metals -- Surfaces, Science and technology, Research

Abstract

A recently designed single-crystal surface calorimeter has been deployed to measure the energy difference between two solid surface structures. The clean Pt{100) surface is reconstructed to a stable phase in which the surface layer of platinum atoms has a quasi-hexagonal structure. By comparison of the heats of adsorption of CO and of [C.sub.2][H.sub.4] on this stable Pt{100}-hex phase with those on a metastable Pt{100}-(1x1) surface, the energy difference between the two clean phases was measured as 20 ± 3 and 25 ± 3 kilojoules per mole of surface platinum atoms., Phase transitions in bulk systems can be readily characterized by their enthalpy change by using calorimetric measurements. Although surface phase transitions are well known, their energetics have been inferred indirectly, [...]

Published

1995