Chemistry:Partial current

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In electrochemistry, partial current is defined as the electric current associated with (anodic or cathodic) half of the electrode reaction. Depending on the electrode half-reaction, one can distinguish two types of partial current:

  • cathodic partial current Ic (called also cathodic current): is the flow of electrons from the electrode surface to a species in solution;
  • anodic partial current Ia (called also anodic current): is the flow of electrons into the electrode from a species in solution.

The cathodic and anodic partial currents are defined by IUPAC.[1]

The partial current densities (ic and ia) are the ratios of partial currents respect to the electrode areas (Ac and Aa):

ic = Ic/Ac
ia = Ia/Aa

The sum of the cathodic partial current density ic (positive) and the anodic partial current density ia (negative) gives the net current density i:[2]

i = ic + ia

In the case of the cathodic partial current density being equal to the anodic partial current density (for example, in a corrosion process[3]), the net current density on the electrode is zero:[2]

ieq = ic,eq + ia,eq = 0

When more than one reaction occur on an electrode simultaneously, then the total electrode current can be expressed as:[1]

[math]\displaystyle{ I = \Sigma I_{a,j} + \Sigma I_{c,j} }[/math]

where the index [math]\displaystyle{ j }[/math] refers to the particular reactions.

Notes

References

  • Bard, A.J. and Faulkner L.R. Electrochemical Methods: Fundamentals and Applications (2nd ed.), 2001 John Wiley & Sons Inc.

See also