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Ionic double layer of atomically flat gold formed on mica templates
Authors:Terry C. Chilcott  Elicia L.S. Wong  Hans G.L. Coster  Michael James
Affiliation:a Biophysics and Bioengineering, School of Chemical and Biomolecular Engineering, University of Sydney, City Road, Sydney, NSW 2008, Australia
b Australian Nuclear Science and Technology Organisation, Lucas Heights Research Laboratory, Lucas Height, NSW 2234, Australia
c School of Mathematics and Statistics, University of New South Wales, Sydney, NSW 2052, Australia
Abstract:Electrical impedance spectroscopy characterisations of gold surfaces formed on mica templates in contact with potassium chloride electrolytes were performed at the electric potential of zero charge over a frequency range of 6 × 10−3 to 100 × 103 Hz. They revealed constant-phase-angle (CPA) behaviour with a frequency exponent value of 0.96 for surfaces that were also characterised as atomically flat using atomic force microscopy (AFM). As the frequency exponent value was only marginally less than unity, the CPA behaviour yielded a realistic estimate for the capacitance of the ionic double layer. The retention of the CPA behaviour was attributed to specific adsorption of chloride ions which was detected as an adsorption conductance element in parallel with the CPA impedance element. Significant variations in the ionic double layer capacitance as well as the adsorption conductance were observed for electrolyte concentrations ranging from 33 μM to 100 mM, but neither of these variations correlated with concentration. This is consistent with the electrical properties of the interface deriving principally from the inner or Stern region of the double layer.
Keywords:Ionic double layer   Impedance   Surface topography   AFM   EIS   CPE
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