Copper coulometer explained

The copper coulometer is a one application for the copper-copper(II) sulfate electrode.[1] [2] Such a coulometer consists of two identical copper electrodes immersed in slightly acidic pH-buffered solution of copper(II) sulfate. Passing of current through the element leads to the anodic dissolution of the metal on anode and simultaneous deposition of copper ions on the cathode. These reactions have 100% efficiency over a wide range of current density.

Calculation

The amount of electric charge (quantity of electricity) passed through the cell can easily be determined by measuring the change in mass of either electrode and calculating:

Q=

zCu\DeltamF
MCu
,where:

Q

is the quantity of electricity (coulombs)

\Deltam

is the mass transported (gm)

zCu

is the charge of the copper ions, equal to +2

F

is the Faraday constant (96485.3383 coulombs per mole)

MCu

is the atomic weight of copper, equal to 63.546 grams per mole.

Although this apparatus is interesting from a theoretical and historical point of view, present-day electronic measurement of time and electric current provide in their multiplication the amount of passed coulombs much easier, with greater precision, and in a shorter period of time than is possible by weighing the electrodes.

See also

Notes and References

  1. Book: Samuel Glasstone. An Introduction to Electrochemistry. 16 April 2013. Read Books Limited. 978-1-4465-4546-1. 29–.
  2. Book: A.M. James. Cecil Whitfield Davies. A Dictionary of Electrochemistry. 18 June 1976. Palgrave Macmillan UK. 978-1-349-02820-7. 60–.