Synthesis of Azolium‐2‐dithiocarboxylate Zwitterions under Mild, Aerobic Conditions
François Mazars, Madalina Hrubaru, Nikolay Tumanov, Johan Wouters, Lionel Delaude
Abstract
Abstract Twelve imidazolium‐, imidazolinium‐, or benzimidazolium‐2‐dithiocarboxylate zwitterions with aliphatic or aromatic substituents on their nitrogen atoms, including four new unsymmetrical 1‐alkyl‐3‐arylimidazolium derivatives, were obtained in high yields (62–96 %) upon reaction of azolium salts with CS 2 and Cs 2 CO 3 in acetonitrile at room temperature. Compared to the previous strategies devised for the synthesis of NHC⋅CS 2 betaines, this novel procedure relied on an innocuous, weak base and could be applied under mild aerobic conditions. All the new compounds were fully characterized by various analytical techniques and the molecular structures of two of them were determined by XRD analysis. An associative mechanism involving the concerted reaction of the azolium salts with both CS 2 and CO 3 2− was tentatively proposed to account for the formation of the zwitterionic adducts without the intervention of free carbenes. This would explain the good results obtained with a weak inorganic base that lacks the strength needed to deprotonate the azolium salt substrates.