Synthesis of α‐Aryl Ketones by Harnessing the Non‐Innocence of Toluene and its Derivatives: Enhancing the Acidity of Methyl Arenes by a Brønsted Base and their Mechanistic Aspects
Ramdas Sreedharan, Pradeep Kumar Pal, Pradeep K. R. Panyam, U. Deva Priyakumar, Thirumanavelan Gandhi
Abstract
Abstract Ketones are the key functional group that recurs in chemistry and biology, and accessing them through simple and economic ways is highly desirable. Herein, we report the synthesis of unsymmetrical ketones from abundant toluene and alkyl esters, where volatile alcohols are the sole byproduct. This protocol applies to a repertoire of substrates bearing electron‐donating, electron‐withdrawing, and neutral substituents. Most importantly, the organometallic ferrocenyl ester underwent aroylation with ease. This method is the first example to furnish diketones from methyl arenes and diesters. Furthermore, cyclic imide was synthesized by this protocol utilizing KN(SiMe 3 ) 2 as a ′nitrogen′ source. Density functional theory studies provide insight into deprotonation of toluene by K + ‐π interaction by increasing its acidity, and this being the rate‐determining step.