Hatakeyama T, Imayoshi R, Yoshimoto Y, Ghorai SK, Jin M, Takaya H, Norisuye K, Sohrin
Y, Nakamura M * Kyoto University and Japan Science and Technology Agency, Tokyo, Japan
Iron-Catalyzed Aromatic Amination for Nonsymmetrical Triarylamine Synthesis.
J. Am. Chem. Soc. 2012;
134: 20262-20265
Key words
iron - amination - triarylamines
Significance
A novel iron-catalyzed amination reaction of aryl bromides with in situ generated
magnesium amides has been disclosed. This new protocol proceeds in xylene or dibutyl
ether at elevated temperatures in the presence of lithium bromide and provides diaryl-
and triarylamines without the use of expensive and/or toxic metals.
Comment
The authors propose the following mechanism: FeCl2 reacts with two equivalents of magnesium amide to form monomeric and dimeric iron(II)–diamide
complexes, which are in equilibrium with each other. The monomer undergoes an oxidative
addition with the aryl bromide to form an iron(IV) intermediate. Reductive elimination
affords the product and an iron(II)–monoamide complex. Regeneration of the active
species via LiBr-assisted transmetalation with the magnesium amide completes the cycle.