Zn(II)-Stabilized Azo-Anion Radical-Catalyzed Dehydrogenative Synthesis of Olefins
Subhasree Pal, Amit Kumar Guin, Subhankar Khanra, Nanda D. Paul
Abstract
Herein, we describe a Zn-catalyzed atom-economical, inexpensive, and sustainable method for preparing a broad spectrum of substituted olefins utilizing alcohols as the main precursor. Using a Zn(II) complex [ZnLCl 2 ] ( 1 ) of the redox-noninnocent ligand 2-((4-chlorophenyl)diazenyl)-1,10-phenanthroline ( L ), various ( E )-olefins were prepared in good yields by coupling alcohols with sulfones and aryl cyanides under an inert atmosphere. Under an aerial atmosphere, vinyl nitriles were isolated in up to 82% yield reacting alcohols with benzyl cyanides in the presence of 1 . Control experiments and mechanistic investigation indicate the active involvement of the aryl-azo ligand as an electron and hydrogen reservoir, permitting 1 to perform as a promising catalyst.