• Title of article

    Detection of phase transients in two-dimensional adlayers of adenosine at the solid amalgam electrode surfaces

  • Author/Authors

    Michal Hason and Latzer، نويسنده , , Stanislav and Simonaho، نويسنده , , Simo-Pekka and Silvennoinen، نويسنده , , Raimo and Vetterl، نويسنده , , Vladim??r، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2004
  • Pages
    13
  • From page
    65
  • To page
    77
  • Abstract
    The application of amalgam–alloy electrodes (MeAEs) for the detection of the phase transients in two-dimensional (2D) adlayers of adenosine is shown. The electrochemical characterisation of the surface of the MeAEs used was performed by cyclic voltammetry (CV) and capacitance measurements (C–E curves). An optical diffractive element (DOE) based sensor was used for the inspection of the optical roughness of the bare and amalgamated surface of the metal electrodes. netics of the phase transitions of adenosine adsorbed at the copper (CuAE), platinum (PtAE), and silver amalgam–alloy electrode (AgAE) was studied by chronoamperometry (j–t curves) and capacitance measurements (C–E curves). In the acid (pH 5) solution adenosine forms two different 2D physisorbed condensed adlayers at the MeAEs. The first of these (adlayer II) is located around the potential of −1.2 V, and the second 2D physisorbed film (adlayer III) is formed close to the potential of −0.5 V. Both of the adlayers II and III exist at the CuAE and PtAE substrates where the thickness of the amalgam–alloy layer is as low as 0.04 μm. The 2D condensed films of adenosine are poorly developed on the AgAE substrate. the phase transition of adenosine from a dilute adsorption adlayer (region Ia) to a 2D physisorbed condensed film (region II) the polynucleation and growth process takes place at the CuAE and PtAE substrates. At the AgAE substrate only the adsorption process takes place.
  • Keywords
    Silver Electrode , Solid amalgam electrodes , Adenosine adlayers , Two-dimensional phase transition , Nucleation and growth , Copper electrode , Platinum Electrode
  • Journal title
    Journal of Electroanalytical Chemistry
  • Serial Year
    2004
  • Journal title
    Journal of Electroanalytical Chemistry
  • Record number

    1670408