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Anson equation

In electrochemistry, the Anson equation defines the charge-time dependence for linear diffusion control in chronocoulometry.

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Jun 22, 2026
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In electrochemistry, the Anson equation defines the charge-time dependence for linear diffusion control in chronocoulometry.1

The Anson equation is written as:

Q = 2 n F A C D 1 / 2 π 1 / 2 t 1 / 2 {\displaystyle Q=2nFACD^{1/2}\pi ^{-1/2}t^{1/2}}

where,

Q = charge in coulombs
n = number of electrons (to reduce/oxidize one molecule of analyte)
F = Faraday constant, 96485 C/mol
A = area of the (planar) electrode in cm2
C = concentration in mol/cm3;
D = diffusion coefficient in cm2/s
t = time in s.

This is related to the Cottrell equation via integration with respect to time (t), and similarly implies that the electrode is planar.

See also

See also

References

References

  1. Chronoamperometry/chronocoulometry - Data Analysis https://www.basinc.com/manuals/EC_epsilon/Techniques/ChronoI/ca_analysis