Citation
Williams, Ellen D. (1982) Studies of Chemical Adsorption Using Low-Energy Electron Diffraction. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/DYY3-MQ42. https://resolver.caltech.edu/CaltechETD:etd-09302005-132833
Abstract
Both experimental and computational studies based on low-energy electron diffraction (LEED) have been performed to determine the nature of order in chemically adsorbed overlayers. These studies have been directed towards obtaining a better understanding of adatom-adatom interactions by measurement of their most obvious manifestations; change in overlayer order during adsorption and co-adsorption, island formation, and order-disorder phenomena.
The effect of the co-adsorption of hydrogen on the ordering of CO on Rh(111) has been studied using LEED and thermal desorption mass spectrometry. The results indicate that the adsorption of CO proceeds via a physically adsorbed intermediate. In addition, there is a strong repulsive interaction between CO molecules and hydrogen atoms co-adsorbed on Rh(111). This interaction is apparent at distances up to 2.7-3.1 Å indicating that it is a through-metal effect.
A series of LEED patterns has been observed during the adsorption of sulfur on the reconstructed IR(110)-(1x2) surface. The structure observed at lowest coverages has a p2mg symmetry. This allows a determination of the absolute coverage, and indicates a probable binding site for the sulfur atoms.
A Monte Carlo simulation of the order-disorder behavior of oxygen on W(110) has been performed. General expressions relating the values of the interaction energies to the transition temperatures for a lattice gas with first, second and third neighbor interactions have been determined. Symmetry considerations in selecting a model for the interaction energies are discussed.
The effect of the ordering of adsorbed molecules into small islands on the LEED beam profile has been determined. In the limit of a random distribution of island positions the overall intensity is shown to be the weighted sum of the intensities from the individual islands. Computer simulations of island-containing overlayers have been used to determine the effect on the beam profiles of deviations from a random distribution of islands.
Experimental studies of island formation for CO on Ru(001) have been performed. The finite size of the ordered islands has a strong effect on the order-disorder behavior. Quantitative measurements of this effect have allowed a determination of the island size distribution and thus, the mean island size as a function of coverage.
| Item Type: | Thesis (Dissertation (Ph.D.)) | |||||||||||||||
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| Subject Keywords: | Chemistry | |||||||||||||||
| Degree Grantor: | California Institute of Technology | |||||||||||||||
| Division: | Chemistry and Chemical Engineering | |||||||||||||||
| Major Option: | Chemistry | |||||||||||||||
| Awards: | Caltech Distinguished Alumni Award, 2016 | |||||||||||||||
| Thesis Availability: | Public (worldwide access) | |||||||||||||||
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| Group: | Caltech Distinguished Alumni Award | |||||||||||||||
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| Defense Date: | 10 September 1981 | |||||||||||||||
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| Record Number: | CaltechETD:etd-09302005-132833 | |||||||||||||||
| Persistent URL: | https://resolver.caltech.edu/CaltechETD:etd-09302005-132833 | |||||||||||||||
| DOI: | 10.7907/DYY3-MQ42 | |||||||||||||||
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| Default Usage Policy: | No commercial reproduction, distribution, display or performance rights in this work are provided. | |||||||||||||||
| ID Code: | 3840 | |||||||||||||||
| Collection: | CaltechTHESIS | |||||||||||||||
| Deposited By: | Imported from ETD-db | |||||||||||||||
| Deposited On: | 03 Oct 2005 | |||||||||||||||
| Last Modified: | 22 Jul 2021 18:12 |
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