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Kolbe electrolysis

From Wikipedia, the free encyclopedia

"Kolbe reaction" redirects here. For the carboxylation of phenols, see Kolbe–Schmitt reaction.


The Kolbe electrolysis or Kolbe reaction is an organic reaction named after Hermann Kolbe.[1] The Kolbe reaction is formally a decarboxylative dimerisation of two carboxylic acids (or carboxylate ions). The overall reaction is:

If a mixture of two different carboxylates are used, all combinations of them are generally seen as the organic product structures:

3 R1COO + 3 R2COO → R1−R1 + R1−R2 + R2−R2 + 6 CO2 + 6 e

The reaction mechanism involves a two-stage radical process: electrochemical decarboxylation gives a radical intermediate, which combine to form a covalent bond.[2] As an example, electrolysis of acetic acid yields ethane and carbon dioxide:

CH3COOH → CH3COO → CH3COO· → CH3· + CO2
2CH3· → CH3CH3

Another example is the synthesis of 2,7-dimethyl-2,7-dinitrooctane from 4-methyl-4-nitrovaleric acid:[3]

Kolbe electrolysis, synthesis of 2,7-Dimethyl-2,7-dinitrooctane

The Kolbe reaction has also been occationally used in cross-coupling reactions.

In 2022, it was discovered that the Kolbe electrolysis is enhanced if an alternating square wave current is used instead of a direct current.[4][5]

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Transcription

Applications

Kolbe electrolysis has a few industrial applications.[6] In one example, sebacic acid has been produced commercially by Kolbe electrolysis of adipic acid.[7]

Kolbe electrolysis has been examined for converting biomass into biodiesel[8][9] and for grafting of carbon electrodes.[10][11]

See also

References

  1. ^ Utley, James (1997). "Trends in Organic Electrosynthesis". Chemical Society Reviews. 26 (3): 157. doi:10.1039/cs9972600157.
  2. ^ Vijh, A. K.; Conway, B. E. (1967). "Electrode Kinetic Aspects of the Kolbe Reaction". Chem Rev. 67 (6): 623–664. doi:10.1021/cr60250a003.
  3. ^ Sharkey, W. H.; Langkammerer, C. M. (1973). "2,7-Dimethyl-2,7-dinitrooctane". Organic Syntheses; Collected Volumes, vol. 5, p. 445.
  4. ^ Hioki, Yuta; Costantini, Matteo; Griffin, Jeremy; Harper, Kaid; Prado Merini, Melania; Nissl, Benedikt; Kawamata, Yu; Baran, Phil (31 October 2022). Overcoming the Limitations of Kolbe Coupling via Waveform-Controlled Electrosynthesis (Report). Chemistry. doi:10.26434/chemrxiv-2022-3cj82-v2.
  5. ^ Hioki, Yuta; Costantini, Matteo; Griffin, Jeremy; Harper, Kaid C.; Merini, Melania Prado; Nissl, Benedikt; Kawamata, Yu; Baran, Phil S. (7 April 2023). "Overcoming the limitations of Kolbe coupling with waveform-controlled electrosynthesis". Science. 380 (6640): 81–87. doi:10.1126/science.adf4762. ISSN 0036-8075.
  6. ^ Wendt, Hartmut; Vogt, Helmut; Kreysa, Gerhard; m. Kolb, Dieter; e. Engelmann, Gerald; Ziegler, Jörg C.; Goldacker, Hubert; Jüttner, Klaus; Galla, Ulrich; Schmieder, Helmut; Steckhan, Eberhard (2009). "Electrochemistry". Ullmann's Encyclopedia of Industrial Chemistry. doi:10.1002/14356007.a09_183.pub3. ISBN 978-3-527-30673-2.
  7. ^ Seko, Maomi; Yomiyama, Akira; Isoya, Toshiro (1979). "Development of Kolbe Electrosynthesis of Sebacic Acid". CEER, Chemical Economy & Engineering Review. 11 (9): 48-50.
  8. ^ Yuan, Gang; Wu, Chan; Zeng, Guorong; Niu, Xiaopo; Shen, Guoqiang; Wang, Li; Zhang, Xiangwen; Luque, Rafael; Wang, Qingfa (18 January 2020). "Kolbe Electrolysis of Biomass-Derived Fatty Acids Over Pt Nanocrystals in an Electrochemical Cell". ChemCatChem. 12 (2): 642–648. doi:10.1002/cctc.201901443. ISSN 1867-3880.
  9. ^ Ho, Calvin K.; McAuley, Kimberley B.; Peppley, Brant A. (1 October 2019). "Biolubricants through renewable hydrocarbons: A perspective for new opportunities". Renewable and Sustainable Energy Reviews. 113: 109261. doi:10.1016/j.rser.2019.109261. ISSN 1364-0321.
  10. ^ Andrieux, Claude P.; Gonzalez, Felipe; Savéant, Jean-Michel (1 May 1997). "Derivatization of Carbon Surfaces by Anodic Oxidation of Arylacetates. Electrochemical Manipulation of the Grafted Films". Journal of the American Chemical Society. 119 (18): 4292–4300. doi:10.1021/ja9636092. ISSN 0002-7863.
  11. ^ Bélanger, Daniel; Pinson, Jean (20 June 2011). "Electrografting: a powerful method for surface modification". Chemical Society Reviews. 40 (7): 3995–4048. doi:10.1039/C0CS00149J. ISSN 1460-4744.

Further reading

External links


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This page was last edited on 12 May 2024, at 01:59
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