2003
DOI: 10.1021/jp022099x
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Surface Processes Induced by Collisions

Abstract: Energetic gas-phase particles that collide with adsorbed species on solid surfaces induce a variety of processes. Collision induced processes (CIP) are important and may play a central role in the mechanism governing heterogeneous catalytic reactions at high pressures and elevated temperatures. A number of different CIPs are discussed in this article with a strong emphasis on the utilization of molecular dynamics (MD) simulations as a tool for gaining molecular level mechanistic and dynamic insight into chemic… Show more

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Cited by 46 publications
(28 citation statements)
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“…As shown in Figure 6, the dependence of <∆r> on incident energy has a threshold: the onset for effective CIM appears to be near collision energy of 1.0 ( 0.15 eV (total energy of 3.3 eV, assuming energy transfer directly to the adsorbates is near 30% (upper limit) of the total incident colliders' energysthe rest goes to the reflected collider (about 25%) and the substrate 19 ).…”
Section: θ(X)mentioning
confidence: 98%
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“…As shown in Figure 6, the dependence of <∆r> on incident energy has a threshold: the onset for effective CIM appears to be near collision energy of 1.0 ( 0.15 eV (total energy of 3.3 eV, assuming energy transfer directly to the adsorbates is near 30% (upper limit) of the total incident colliders' energysthe rest goes to the reflected collider (about 25%) and the substrate 19 ).…”
Section: θ(X)mentioning
confidence: 98%
“…Collision-induced processes were demonstrated to include desorption (CIDes) [13][14][15][16][17] and reaction (CIR). 18,19 Dissociative adsorption dynamics of energetic molecular colliders on metal surfaces has been at the focus of theoretical and experimental research for more than two decades. In these studies of the role of internal degrees of freedom of the collider, statistical vs quantum mechanical theoretical approaches to describe the dynamics were presented over the years.…”
Section: Introductionmentioning
confidence: 99%
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“…We adopted different sets of coordinates in order to complement previous theoretical investigations on the Eley-Rideal reaction, considering the competitive CID process. The latter process had received some attention in the literature, both experimentally and theoretically [145,146], but very little if any was known about the role of quantum dynamics (e.g. the quantization of the target-surface initial state) even when light atoms were involved.…”
Section: Quantum Studies Of Dynamical Processes At Surfacesmentioning
confidence: 99%
“…Recently, Zeiri and co-worker reported their results for a molecular-dynamics ͑MD͒ simulation which was planned to explain the O 2 desorption at 248 nm on Ag͑110͒. 26,27 In their simulations, strong coupling of surface corrugation and adsorbate-frustrated rotation as well as hot-atom energy plays a main role to control the collimation angle. The resultant O 2 desorption broadly collimates at either 20°-40°or 60°-80°off the surface normal toward the ͓110͔ direction at low O 2 density and the 10°-25°o ff normal desorption is enhanced at high density.…”
Section: Introductionmentioning
confidence: 99%