- Tafel equation
The Tafel equation relates the rate of an electrochemical reaction to the
overpotential . [Bard, A. J.; Faulkner, L. R. “Electrochemical Methods. Fundamentals and Applications” 2nd Ed. Wiley, New York. 2001. ISBN 0-471-04372-9] The Tafel equation was first deduced experimentally and was later shown to have a theoretical justification. The equation is named after German chemistJulius Tafel (1862-1918).On a single electrode the Tafel equation can be stated as
where: is the overpotential, V : is the so called "Tafel slope", V: is the current density, A/m2 and : is the so called "exchange current density", A/m2.
Overview of the terms
The exchange current is the current at equilibrium, i.e. the rate at which oxidized and reduced species transfer electrons with the electrode.In other words, the exchange current density is the rate of reaction at the reversible potential (when the overpotential is zero by definition). At the reversible potential, the reaction is in equilibrium meaning that the forward and reverse reactions progress at the same rates. This rate is the exchange current density.
The Tafel slope is measured experimentally; however, it can be shown theoretically when the dominant reaction mechanism involves the transfer of a single electron that
:
where A is defined as
:
where: is
Boltzmann's constant ,: is theabsolute temperature , : is theelectron charge , and : is the so called "charge transfer coefficient", the value of which must be between 0 and 1.An alternative form
The Tafel equation can be also written as:
where:the plus sign under the exponent refers to an anodic reaction, and a minus sign to a cathodic reaction,:n is the number of electrons involved in the electrode reaction:k is the rate constant for the electrode reaction,:R is the
universal gas constant ,:F is theFaraday constant .Applicability
Where an electrochemical reaction occurs in two "
half reaction s" on separateelectrode s, the Tafel equation is applied to each electrode separately.The Tafel equation assumes that the reverse reaction rate is negligible compared to the forward reaction rate.
The Tafel equation is applicable to the region where the values of polarization are high. At low values of polarization, the dependence of current on polarization is usually linear (not logarithmic):
:.
This linear region is called "polarization resistance" due to its formal similarity to the
Ohm's law .ee also
*
Overpotential
*Butler-Volmer equation References
*cite journal
title = A Century of Tafel’s Equation: 1905–2005 A Commemorative Issue of Corrosion Science
author = G.T. Burstein
journal = Corrosion Science
volume = 47
issue = 12
pages = 2858–2870
year = 2005
url =
doi = 10.1016/j.corsci.2005.07.002
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