One-Pot Curtius Rearrangement Processes from Carboxylic Acids

 

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Abstract

An efficient and practical synthesis of amine derivatives from carboxylic acids is described using new one-pot Curtius rearrangement processes. The preparation of carbamate-protected amines and anilines, as well as ureas was achieved in good to excellent yields on a multigram scale.

References

• 1a Buchner E. Curtius T. Ber. Dtsch. Chem. Ges.  1885,  18:  2371 
  Google Scholar
• 1b Curtius T. J. Prakt. Chem.  1894,  50:  275 
  Google Scholar
• 2a Smith PAS. Org. React.  1946,  3:  337 
  Google Scholar
• 2b Shioiri T. In Comprehensive Organic Synthesis   Vol. 6:  Trost BM. Fleming I. Pergamon Press; Oxford: 1991.  p.795 
  Google Scholar
• 2c Scriven EF. Turnbull K. Chem. Rev.  1988,  88:  297 
  Google Scholar
• 3a Shioiri T. Ninomiya K. Yamada S. J. Am. Chem. Soc.  1972,  94:  6203 
  Google Scholar
• 3b Ninomiya K. Shioiri T. Yamada S. Tetrahedron  1974,  30:  2151 
  Google Scholar
• 3c Murato K. Shioiri T. Yamada S. Chem. Pharm. Bull.  1975,  23:  1738 
  Google Scholar
• 3d Capson TL. Poulter CD. Tetrahedron Lett.  1984,  25:  3515 
  Google Scholar
• 3e Wolff O. Waldvogel SR. Synthesis  2004,  1303 
  Google Scholar
• For recent examples, see:
• 4a Gomez-Sanchez E. Marco-Contelles J. Tetrahedron  2005,  61:  1207 
  Google Scholar
• 4b Kanakubo A. Gray D. Innocent N. Wonnacott S. Gallagher T. Bioorg. Med. Chem. Lett.  2006,  16:  4648 
  Google Scholar
• 4c Jewett JC. Rawal VH. Angew. Chem. Int. Ed.  2007,  46:  6502 
  Google Scholar
• 5a Lebel H. Leogane O. Org. Lett.  2005,  7:  4107 
  Google Scholar
• 5b Lebel H. Leogane O. Huard K. Lectard S. Pure Appl. Chem.  2006,  78:  363 
  Google Scholar
• 5c Leogane O. Lebel H. Org. Synth.  2009,  86:  113 
  Google Scholar
• 6 Duggan ME. Imagire JS. Synthesis  1989,  131 
  Artikel in Thieme ConnectGoogle Scholar
• 7 Lebel H. Leogane O. Org. Lett.  2006,  8:  5717 
  CrossrefGoogle Scholar
• 10a Bretherick L. Handbook of Reactive Chemical Hazards   4th ed.:  Butterworths; London: 1990.  p.1360 
  Google Scholar
• 10b Armour M.-A. Waste Disposal in Academic Institutions   Kaufman JA. Lewis; Chelsea MI: 1990.  p.122 
  Google Scholar
• 13a Cacchi S. Fabrizi G. Chem. Rev.  2005,  105:  2873 
  Google Scholar
• 13b Humphrey GR. Kuethe JT. Chem. Rev.  2006,  106:  2875 
  Google Scholar
• 14 A novel one-pot procedure that allows the direct synthesis of 2,3-disubstituted and 3-substituted indoles starting from readily available 2-iodobenzoic acid was also developed, see: Leogane O. Lebel HC. Angew. Chem. Int. Ed.  2008,  47:  350 
  CrossrefGoogle Scholar

When the reaction was run at 66 ˚C, the yields for compounds 9 and 13 decreased to 48% and 40%, respectively. The remaining product was the corresponding tert-butyl ester.

Lower yields (15-40%) were obtained with other solvents, such as Et₂O, dioxane, DMSO, and CH₂Cl₂. This process is not compatible with protic solvents.

79% of unsubstituted Boc-aniline was obtained under these reaction conditions. However, functional groups such as methyl ether, thiomethyl ether, nitro, and halides were not tolerated, and the corresponding anilines were isolated in less than 25% yield.

A control experiment was run with chloroformate, NaN₃, and carboxylic acid at r.t., which showed the formation of acyl azide, suggesting that the base is not essential for the formation of this intermediate. The base is probably involved in the formation of the carbamate from the isocyanate, by trapping the proton of the nucleophile.

The chloroformate reagent must be stored in a refrigerator prior to use.