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Field regulation of single-molecule conductivity by a charged surface atom

Paul G. Piva, Gino A. DiLabio, Jason L. Pitters, Janik Zikovsky, Moh'd Rezeq, Stanislav Dogel, Werner A. Hofer and Robert A. Wolkow ()
Additional contact information
Paul G. Piva: University of Alberta
Gino A. DiLabio: National Research Council of Canada
Jason L. Pitters: National Research Council of Canada
Janik Zikovsky: University of Alberta
Moh'd Rezeq: University of Alberta
Stanislav Dogel: University of Alberta
Werner A. Hofer: University of Liverpool
Robert A. Wolkow: University of Alberta

Nature, 2005, vol. 435, issue 7042, 658-661

Abstract: Abstract Electrical transport through molecules has been much studied since it was proposed1 that individual molecules might behave like basic electronic devices, and intriguing single-molecule electronic effects have been demonstrated2,3. But because transport properties are sensitive to structural variations on the atomic scale4,5,6,7, further progress calls for detailed knowledge of how the functional properties of molecules depend on structural features. The characterization of two-terminal structures has become increasingly robust and reproducible8,9,10,11,12, and for some systems detailed structural characterization of molecules on electrodes or insulators is available13,14,15,16,17. Here we present scanning tunnelling microscopy observations and classical electrostatic and quantum mechanical modelling results that show that the electrostatic field emanating from a fixed point charge regulates the conductivity of nearby substrate-bound molecules. We find that the onset of molecular conduction is shifted by changing the charge state of a silicon surface atom, or by varying the spatial relationship between the molecule and that charged centre. Because the shifting results in conductivity changes of substantial magnitude, these effects are easily observed at room temperature.

Date: 2005
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DOI: 10.1038/nature03563

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