Publication: Direct Structural Observation of a Molecular Junction by High-Energy X-Ray Reflectometry
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Date
2006
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Publisher
National Academy of Sciences
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Citation
Lefenfeld, Michael, Julian Baumert, Eli Sloutskin, Ivan Kuzmenko, Peter Pershan, Moshe Deutsch, Colin Nuckolls, and Benjamin M. Ocko. 2006. Direct structural observation of a molecular junction by high-energy x-ray reflectometry. PNAS 103(8): 2541-2545.
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Abstract
We report a direct angstrom resolution measurement of the structure of a molecular-size electronic junction comprising a single (or a double) layer of alkyl-thiol and alkyl-silane molecules at the buried interface between solid silicon and liquid mercury. The high-energy synchrotron x-ray measurements reveal densely packed layers comprising roughly interface-normal molecules. The monolayer’s thickness is found to be 3–4 Å larger than that of similar layers at the free surfaces of both mercury and silicon. The origins of this and the other unusual features detected are discussed in this article. Measurements of the bilayer junction with an applied potential did not show visible changes in the surface normal structure.
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Keywords
monolayers, structure, x-ray reflectivity, molecular electronics
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