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Arndt–Eistert reaction

 
Sci-Tech Dictionary: Arndt-Eistert synthesis
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(¦ärnt ¦ī·stərt ′sin·thə·səs)

(organic chemistry) A method of increasing the length of an aliphatic acid by one carbon by reacting diazomethane with acid chloride.

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Wikipedia: Arndt–Eistert reaction
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The Arndt-Eistert synthesis is a series of chemical reactions designed to convert a carboxylic acid to a higher carboxylic acid homologue (ie. contains one additional carbon atom) and is considered a homologization process.[1][2][3] Named for the German chemists Fritz Arndt (1885-1969) and Bernd Eistert (1902-1978), Arndt-Eistert synthesis is a popular method of producing beta-amino-acids from alpha-amino-acids. Acid chlorides react with diazomethane to give diazoketones. In the presence of a nucleophile (water) and a metal catalyst (Ag2O), diazoketones will form the desired acid homologue.[4][5]

The Arndt-Eistert synthesis

While the classic Arndt-Eistert synthesis uses thionyl chloride to convert the starting acid to an acid chloride, any procedure can be used that will generate an acid chloride.

Diazoketones are typically generated as described here, but other methods such as diazo-group transfer can also apply.[6]

Since diazomethane is toxic and violently explosive, many safer alternatives have been developed[7], such as the usage of ynolates[8] or trimethylsilyldiazomethane.[9][10]

Contents

Reaction mechanism

The key step in the Arndt-Eistert synthesis is the metal-catalyzed Wolff rearrangement of the diazoketone to form a ketene.[11]

Heat, light, platinum, silver, and copper salts will also catalyze the Wolff rearrangement to produce the desired acid homologue.

Variations

Newman-Beal modification

The addition of triethylamine to the diazomethane solution will avoid the formation of α-chloromethylketone side-products.[12]

References

  1. ^ Fritz Arndt and Bernd Eistert (1935). "Ein Verfahren zur Überführung von Carbonsäuren in ihre höheren Homologen bzw. deren Derivate". Berichte der deutschen chemischen Gesellschaft 1 (68): 200–208. doi:10.1002/cber.19350680142. 
  2. ^ Bachmann, W. E.; Struve, W. S. Org. React. 1942, 1, 38. (Review)
  3. ^ Ye, T.; McKervey, M. A. Chem. Rev. 1994, 94, 1091-1160. (Review, doi:10.1021/cr00028a010)
  4. ^ Lee, V.; Newman, M. S. Org. Syn., Coll. Vol. 6, p.613 (1988); Vol. 50, p.77 (1970). (Article)
  5. ^ Linder, M. R.; Steurer, S.; Podlech, J. Org. Syn., Coll. Vol. 10, p.194 (2004); Vol. 79, p.154 (2002). (Article)
  6. ^ Danheiser, R. L.; Miller, R. F.; Brisbois, R. G. Org. Syn., Coll. Vol. 9, p.197 (1998); Vol. 73, p.134 (1996). (Article)
  7. ^ Alan R. Katritzky; Zhang, S.; Hussein, A. H. M.; Fang, Y.; Steel, P. J. J. Org. Chem. 2001, 66, 5606. (doi:10.1021/jo0017640)
  8. ^ Reddy, R. E.; Kowalski, C. J. Org. Syn., Coll. Vol. 9, p.426 (1998); Vol. 71, p.146 (1993). (Article)
  9. ^ Aoyama, T.; Shiori, T. Tetrahedron Lett. 1980, 21, 4461-4466.
  10. ^ Cesar, J.; Sollnerdolenc, M. (2001). "Trimethylsilyldiazomethane in the preparation of diazoketones via mixed anhydride and coupling reagent methods: a new approach to the Arndt–Eistert synthesis". Tetrahedron Letters 42: 7099. doi:10.1016/S0040-4039(01)01458-7.  edit
  11. ^ Huggett, C.; Arnold, R. T.; Taylor, T. I. (1942). "The Mechanism of the Arndt-Eistert Reaction". Journal of the American Chemical Society 64: 3043. doi:10.1021/ja01264a505.  edit
  12. ^ Newman, M. S.; Beal, P. F. (1950). Journal of the American Chemical Society 72: 5163. doi:10.1021/ja01167a101.  edit

See also


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