Journal
JOURNAL OF ELECTROANALYTICAL CHEMISTRY
Volume 643, Issue 1-2, Pages 9-14Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jelechem.2010.03.018
Keywords
Dopamine; Nanogaps; CV; Nanoscale electrochemistry; Electrochemical cycling
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Funding
- NIH [DA023586]
- Penn State Nanofabrication Facility
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The ability to quickly and inexpensively fabricate planar solid state nanogaps has enabled research to be effectively performed on devices down to just a few nanometers. Here, nanofabricated electrode pairs with electrode-to-electrode spacings of <4, 6 and 20 nm are utilized for monitoring an electroactive molecule, dopamine, in ionic solution. The results show a several order of magnitude enhancement of the electrochemical signal, collected current, for the solid state nanogaps with 6 nm electrode-electrode spacings as compared to traditional microelectrodes. The data from the <4 nm and 20 nm solid state nanogaps verify that this enhancement is due to cycling of the redox molecules in the confined geometry of the nanogap. In addition the data collected for the <4 nm nanogap emphasizes and reinforces that scaling does have limits and that as device sizes move to the few nanometer scale, the influence of a molecule's size and other physical properties becomes increasingly important and can eventually dominate the generated signals. (C) 2010 Elsevier B.V. All rights reserved.
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