The Rotating Disk Electrode.  Effect if Rates of Rotation and Polarization.

Fried, Ilana; Elving, P.J.

doi:10.1021/ac60226a007

Cited by 23 publications

(24 citation statements)

References 6 publications

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“…It is when convection becomes comparable to or dominates diffusion that the Levich equation holds. Here we note that the two regimes of reactant transport we identified in our analytic models of the PRDE, advection dominant and diffusion dominant each correspond to the 'convection dominant' and 'comparable convection and diffusion' regimes of Fried and Elving's (1965) study of the RDE.…”

Section: Resultsmentioning

confidence: 67%

“…These current peaks appearing instead of plateaus at low rotation rates are also called non-steady-state diffusional peaks and have been observed in RDE experiments at higher scan rates and lower rotation rates. The relation between these two rates and the current has been studied and discussed by Fried & Elving (1965). As the rotation rate increases, it is possible to use higher scan rates and still obtain the steady state plateaus.…”

Section: Resultsmentioning

confidence: 99%

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On the Behavior of the Porous Rotating Disk Electrode

Bonnecaze

Mano

Nam

et al. 2007

J. Electrochem. Soc.

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The behavior of the current from a porous rotating disk electrode ͑PRDE͒ as a function of the rotation rate, electrode geometry, and porosity at large overpotentials is studied experimentally. The current shows a much richer behavior than the flat RDE, including a sigmoidal dependence on the rotation rate. At low rotation rates, the measured current is qualitatively similar to that of an RDE, with the current increasing with the square of the rotation rate. However, at a critical rotation rate, which we term the lower critical rotation rate and which depends on the radius, the thickness, and the porosity of the porous disk, the current increases much more rapidly than predicted by the Levich theory. At a larger, upper critical rotation rate, the current increases more slowly and then approaches a plateau. The plateau value greatly exceeds that predicted by Levich and is about 20 times greater than that for a flat electrode. The results are explained in terms of the angular velocity dependence of the ratio of the effective electrochemical reaction time to the residence time of the fluid in the porous disk. A theory is presented that collapses the data onto a universal curve.

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Section: Resultsmentioning

confidence: 67%

Section: Resultsmentioning

confidence: 99%

On the Behavior of the Porous Rotating Disk Electrode

Bonnecaze

Mano

Nam

et al. 2007

J. Electrochem. Soc.

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“…Under such a condition, j-E profiles for single electrochemical reactions at both, stationary and rotating disk electrodes, should have a current peak, j p , proportional to √v, Eqn. 5, and independent of ω in the case of RDEs [56][57][58][59][60][61][62]87] (10, -10) This result, however, does not imply that the amount of adsorbed O-containing species during the ORR would be the same as in O 2 -free solutions, and it could be higher, as indicated by X-ray photoelectron spectroscopy (XPS) [11], electrochemical quartz crystal microbalance (EQCM) measurements [14,78], and studies at microelectrodes [54,55]. ோ் at a smaller slope than the one expected for a 1etransfer, and later become independent of v. This transition depends on ω and takes place at 0.5 and 10…”

Section: Resultsmentioning

confidence: 98%

“…Typical kinetic analysis of steady-state curves at different ω, Figure 4, In contrast, when v is large relative to ω, the time of the experiment is short and diffusion predominates over convection, δ diff << δ ω [56][57][58][59][60][61][62]87]. Under such a condition, j-E profiles for single electrochemical reactions at both, stationary and rotating disk electrodes, should have a current peak, j p , proportional to √v, Eqn.…”

Section: Resultsmentioning

confidence: 99%

Reaction Mechanism for Oxygen Reduction on Platinum: Existence of a Fast Initial Chemical Step and a Soluble Species Different from H₂O₂

2018

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The oxygen reduction reaction (ORR) on platinum in perchloric acid is studied under transient conditions at stationary and non-stationary electrodes. Only under these conditions, the presence of a fast initial chemical step in the mechanism, giving rise to a soluble, short-lived intermediate proposed to be the HO 2 * radical, is revealed, by comparing experimental and calculated curves by numerical simulations of simple reaction schemes. The formation of this species and the existence of a zero-current cycle involving it would be the main reasons for the lack of reduction currents at potentials higher than the ORR reaction onset. Additionally, regardless of the exact subsequent steps after the initial chemical reaction, if HO 2 * is generated it would disproportionate to hydrogen peroxide, which implies that both species would be always produced during the ORR on Pt. The presence of HO 2 * and H 2 O 2 would profoundly affect the durability of Pt-based catalysts and should be taken into account in the design of materials for fuel cell cathodes.

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“…This effect has been frequently observed in previous CV studies of RDE systems, 65,66 and its origin has been explained in terms of a competition between the speed of voltage scan and that of disc rotation under quasi-steady state conditions. 19,67,68 The underlying mechanism of this effect is briefly noted below.…”

Section: Considerations Of the Rate Determining Stepmentioning

confidence: 99%

The role of chemisorbed hydroxyl species in alkaline electrocatalysis of glycerol on gold

Shi

Simpson

Roy

2015

Phys. Chem. Chem. Phys.

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The mechanism of energy conversion in a direct glycerol fuel cell (DGFC) is governed by the anode supported heterogeneous steps of glycerol electro-oxidation. In aerated alkaline electrolytes, glycerol also participates in a base catalyzed process, which can release certain species mixing with the anode catalyzed surface products. As a result, selective probing of the surface catalytic reactions involving such systems can be difficult. The present work addresses this issue for a gold anode by using the analytical capability of cyclic voltammetry (CV). In addition, surface plasmon resonance measurements are used to optically probe the adsorption characteristics of the electrolyte species. The net exchange current of the oxidation process and the transfer coefficient of the rate determining step are evaluated by analyzing the CV data. The interfacial reactions and their products on Au are identified by measuring the number of electrons released during the electro-oxidation of glycerol. The results indicate that these reactions are facilitated by the surface bound hydroxyl species on Au (chemisorbed OH(-) and faradaically formed Au-OH). By comparing the findings for stationary and rotating electrodes, it is shown that, convective mass transport is critical to maintaining efficient progression of the consecutive oxidation steps of glycerol. In the absence of hydrodynamic support, the main surface products of glycerol oxidation appear to be glyceraldehyde, glycerate and malonate, formed through a net six-electron route. In the presence of controlled convection, a ten-electron process is activated, where mesaxolate is the likely additional product.

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The Rotating Disk Electrode. Effect if Rates of Rotation and Polarization.

Cited by 23 publications

References 6 publications

On the Behavior of the Porous Rotating Disk Electrode

On the Behavior of the Porous Rotating Disk Electrode

Reaction Mechanism for Oxygen Reduction on Platinum: Existence of a Fast Initial Chemical Step and a Soluble Species Different from H₂O₂

The role of chemisorbed hydroxyl species in alkaline electrocatalysis of glycerol on gold

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The Rotating Disk Electrode. Effect if Rates of Rotation and Polarization.

Cited by 23 publications

References 6 publications

On the Behavior of the Porous Rotating Disk Electrode

On the Behavior of the Porous Rotating Disk Electrode

Reaction Mechanism for Oxygen Reduction on Platinum: Existence of a Fast Initial Chemical Step and a Soluble Species Different from H2O2

The role of chemisorbed hydroxyl species in alkaline electrocatalysis of glycerol on gold

Contact Info

Product

Resources

About

Reaction Mechanism for Oxygen Reduction on Platinum: Existence of a Fast Initial Chemical Step and a Soluble Species Different from H₂O₂