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O: Oberflächenphysik
O 13: Solid-liquid interfaces
O 13.2: Vortrag
Montag, 27. März 2006, 15:15–15:30, WIL C207
Excess non-specific Coulomb ion adsorption at the metal electrode/electrolyte solution interface — •Alexander M. Gabovich, Yurii A. Reznikov, and Alexander I. Voitenko — Institute of Physics, prospekt Nauki 46, 03028, Kiev, Ukraine
Excess ion adsorption G induced by the polarization image forces in the system of a metal electrode/symmetric electrolyte solution separated by an insulating interlayer have been calculated. The adopted theoretical scheme involves the Coulomb Green’s function in a three-layer system with sharp interfaces and specular reflection at them. The influence of the spatial dispersion of the dielectric permittivities E(k) in all the three media on the image force energy W(x)and the adsorption G has been analyzed (k is a transferred wave-vector). A comparison with the classical model, where E = const, has been carried out. It has been shown that both the Debye-H∖No-dq{u}ckel ion screening and the spatial dispersion of the solvent contribution to the overall dielectric function of the electrolyte solution lead to the qualitative difference with the results for the classical model. In particular, in a wide range of ion concentrations n a thin interlayer L = 10 Angstroms effectively screens out the attractive influence of the metallic electrode, so that the net Coulomb adsorption becomes repulsive. The approach and the results obtained qualitatively describe two physically different situations. Specifically, the introduced interlayer corresponds either to the dense near-electrode (inner) electrolyte layer or to the intentionally deposited control coating of arbitrary thickness.