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The Wien effect is the experimentally-observed increase in ionic mobility or conductivity of electrolytes at very high gradient of electrical potential.[1] A theoretical explanation has been proposed by Lars Onsager.[2]

A related phenomenon is known as the Second Wien Effect or the dissociation field effect, and it involves increased dissociation constants of weak acids at high electrical gradients.[3] The dissociation of weak chemical bases is unaffected.

The effects are important at very high electrical fields (108 – 109 V/m), like those observed in electrical double layers at interfaces or at the surfaces of electrodes in electrochemistry.

More generally, the electric field effect (directly, through space rather than through chemical bonds) on chemical behaviour of systems (e.g., on reaction rates) is known as the field effect or the direct effect.[4]

The terms are named after Max Wien.[5][6]
See also

Debye length
Electroviscous effects
Field effect (semiconductor)
Field-effect mobility

References

Robert Anthony Robinson, Robert Harold Stokes (2002). Electrolyte Solutions (Reprint of Butterworth & Co. 1970 second revised ed.). Courier Dover Publications. p. 414. ISBN 978-0-486-42225-1.
Onsager, Lars; Shoon Kyung Kim (1957). "Wien Effect in Simple Strong Electrolytes". J. Phys. Chem. 61 (2): 198–215. doi:10.1021/j150548a015.
Carl H. Hamann, Andrew Hamnett, Wolf Vielstich "Electrochemistry", 2nd edition, Wiley-VCH (Google books)
IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version: (2006–) "field effect". doi:10.1351/goldbook.F02358
Karl Willy Wagner, "Max Wien zum 70. Geburtstag" (On the 70th birthday of Max Wien), Naturwissenschaften, Volume 25, Number 5, 65-67, 1937. doi:10.1007/BF01493271 (link to pdf) (in German).
Max Wien: (1) Annalen der Physik. 85, 795 (1928); (2) Phys. Z. 29, 751 (1928); (3) Annalen der Physik. 1, 400 (1929); (4) Phys. Z. 32, 545 (1931); (5) J. Malsch and M. Wien, Annalen der Physik. 83, 305 (1927).

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