Nucleation of chemical waves at defects: a mirror electron microscopy study of catalytic CO oxidation on Pt(110) |
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Authors: | Wei Han Lilienkamp G Imbihl R |
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Affiliation: | Institut für Physik und Physikalische Technologien, Technische Universit?t Clausthal, Leibnizstrasse 4, D-38678 Clausthal-Zellerfeld, Germany. |
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Abstract: | Using mirror electron microscopy (MEM) as spatially resolving method the nucleation of chemical waves in catalytic CO oxidation on a Pt(110) surface was investigated in the 10(-5) mbar range. The waves nucleated at an electrically insulating impurity of approximately 15 microm diameter (the "defect") which most likely represents a diamond particle left over from the polishing process. Nucleation events are initiated by a dynamic process in a boundary layer of approximately 1 microm width between the defect and the surrounding Pt(110) surface. Depending on the parameter choice the fronts/pulses do not escape from the vicinity of the defect and later on die out or, in a supercritical nucleation, propagate across the surface. Asymmetric nucleation leads to spiral waves which remain pinned to the defect. The defect has a kind of steering effect causing chemical waves to collide exactly at the defect. This steering effect is evidently due to a distortion of the substrate lattice in the vicinity of the defect. |
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