화학공학소재연구정보센터
Electrochimica Acta, Vol.55, No.27, 8280-8286, 2010
The voltammetric responses of nanometer-sized electrodes in weakly supported electrolyte A theoretical study
The effect of the supporting electrolyte concentration on the interfacial profiles and voltammetric responses of nanometer-sized disk electrodes have been investigated theoretically by combining the Poisson-Nernst-Planck (PNP) theory and Butler-Volmer (BV) equation The PNP-theory is used to treat the nonlinear couplings of electric field concentration field and dielectric field at electrochemical interface without the electroneutrality assumption that has been long adopted in various voltammetric theories for macro/microelectrodes The BV equation is modified by using the Frumkin correction to account for the effect of the diffuse double layer potential on interfacial electron-transfer (Er) rate and by including a distance-dependent ET probability in the expression of rate constant to describe the radial heterogeneity of the ET rate constant at nanometer-sized disk electrodes The computed voltammetric responses for disk electrodes larger than 200 nm in radii in the absence of the excess of the supporting electrolyte using the present theoretical scheme show reasonable agreements with the predications of the conventional microelectrode voltammetric theory which uses the combined Nernst-Planck equation and electroneutrality equation to describe the mixed electromigration-diffusion mass transport without including the possible effects of the diffuse double layer (Amatore et al [25]) For electrodes smaller than 200 nm however the voltammetric responses predicated by the present theory exhibit significant deviation from the microelectrode theory It is shown that the deviations are mainly resulted from the overlap between the diffuse double layer and the concentration depletion layer (CDL) at nanoscale electrochemical interfaces in weakly supported media which will result in the invalidation of the electroneutrality condition in CDL and from the radial inhomogeneity of ET probability at nanometer-sized disk electrodes (C) 2010 Elsevier Ltd All rights reserved