Title of article
Synthesis of unsymmetrical biaryl ureas from N-carbamoylimidazoles: kinetics and application
Author/Authors
Tristan Rawling، نويسنده , , Andrew M. McDonagh، نويسنده , , Bruce Tattam، نويسنده , , Michael Murray، نويسنده ,
Issue Information
هفته نامه با شماره پیاپی سال 2012
Pages
6
From page
6065
To page
6070
Abstract
N-Carbamoylimidazoles dissociate in solution to yield imidazole and an isocyanate that may be reacted with another aryl amine to form an unsymmetrical biaryl urea. This paper investigates the reaction kinetics and the influence of electron withdrawing/donating substituents on the reaction of N-carbamoylimidazoles with aniline. The overall reaction mechanism involves two zwitterionic intermediates, formed during dissociation and upon reaction of the liberated isocyanate with aniline. The rate limiting step for the reaction is a base catalysed proton transfer from the second zwitterionic intermediate. Although electron withdrawing substituents on the aryl group hinder dissociation, they significantly increase reaction rates compared to compounds bearing electron donating substituents. The imidazole liberated upon dissociation catalyses the rate determining step so that reactions of dissociated N-carbamoylimidazoles proceed more rapidly than those involving only isocyanates. In addition, the imidazole eliminates the need for anhydrous reaction conditions. The N-carbamoylimidazole methodology was demonstrated by preparing sorafenib, a biaryl urea kinase inhibitor, in good yield and excellent purity.
Keywords
Urea , Isocyanate , Imidazole , Carbamoylimidazole
Journal title
Tetrahedron
Serial Year
2012
Journal title
Tetrahedron
Record number
1104729
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