Polarization characteristics of porous electrode systems with adsorbed intermediates participating in the electrode reaction

Tilak, B. V. ; Venkatesh, S. ; Rangarajan, S. K. (1989) Polarization characteristics of porous electrode systems with adsorbed intermediates participating in the electrode reaction Journal of the Electrochemical Society, 136 (7). pp. 1977-1982. ISSN 0013-4651

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Related URL: http://dx.doi.org/10.1149/1.2097108

Abstract

Current-potential relationships are derived for porous electrode systems following a homogeneous model and whenadsorbed intermediates participate in the electrode reaction. Limiting Tafel slopes were deduced and compared with thecorresponding behavior on planar electrode systems. The theoretical results showed doubling of Tafel slopes when theslow-step is a charge-transfer reaction and a nonlogarithmic current-voltage behavior when the slow-step is a chemical reaction.Comparison of the experimental results with theory for the case of oxygen reduction on carbon surfaces in alkalinemedia indicates that a slow chemical reaction following the initial charge-transfer reaction to be the likely rate-controllingstep. Theoretical relationships are utilized to determine the exchange current density and the surface coverage by the adsorbedintermediates during the course of oxygen reduction from alkaline solutions on "carbon." Tafel slope measurementson planar and porous electrodes for the same reaction are suggested as one of the diagnostic criteria for elucidatingthe mechanistic pathways of electrochemical reactions.

Item Type:Article
Source:Copyright of this article belongs to The Electrochemical Society.
ID Code:81224
Deposited On:04 Feb 2012 12:37
Last Modified:04 Feb 2012 12:37

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