Mtm Marc Koper scite author profile

The kinetics of the electrochemical oxidation of a CO adlayer on Pt[n(111)×(111)] electrodes in 0.5 M H 2 SO 4 has been studied using chronoamperometry. The objective is to elucidate the effect of the crystalline defects on the rate of the reaction by using a series of stepped surfaces. The reaction kinetics of the main oxidative process can be modeled using the mean-field approximation for the Langmuir-Hinshelwood mechanism, implying fast diffusion of adsorbed CO on the Pt[n(111)×( 111)] surfaces under electrochemical conditions. The apparent rate constant for the electrochemical CO oxidation, determined by a fitting of the experimental data with the mean-field model, is found to be proportional to the step fraction (1/n) for the surfaces with n > 5, proving steps to be the active sites for the CO adlayer oxidation. An apparent intrinsic rate constant is determined. The potential dependence of the apparent rate constants is found to be structure insensitive with a Tafel slope of ca. 80 mV/dec, suggesting the presence of a slow chemical step in an ECE reaction mechanism.

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Cooxidation on stepped Pt[n(111)×(111)] electrodes

Lebedeva

Koper

Herrero

et al. 2000

Journal of Electroanalytical Chemistry

280

306

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The role of adsorbates in the electrochemical oxidation of ammonia on noble and transition metal electrodes

Vooys

Koper

Santen

et al. 2001

Journal of Electroanalytical Chemistry

366

328

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Mtm Marc Koper

Electrocatalytic reduction of nitrate at low concentration on coinage and transition-metal electrodes in acid solutions

Role of Crystalline Defects in Electrocatalysis: Mechanism and Kinetics of CO Adlayer Oxidation on Stepped Platinum Electrodes

Cooxidation on stepped Pt[n(111)×(111)] electrodes

The role of adsorbates in the electrochemical oxidation of ammonia on noble and transition metal electrodes

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