Carbonyl cross-metathesis via deoxygenative gem-di-metal catalysis

Carbonyls and alkenes are versatile functional groups, whose reactivities are cornerstones of organic synthesis. The selective combination of two carbonyls to form an alkene—a carbonyl cross-metathesis—would be a valuable tool for their exchange. Yet, this important synthetic challenge remains unsolved. Although alkene/alkene and alkene/carbonyl cross-metathesis reactions are known, there is a lack of analogous methods for deoxygenative cross-coupling of two carbonyl compounds. Here we report a pair of strategies for the cross-metathesis of unbiased carbonyls, allowing an aldehyde to be chemo- and stereoselectively combined with another aldehyde or ketone. These mild, catalytic methods are promoted by earth-abundant metal salts and enable rapid access to an unprecedentedly broad range of either Z - or E -alkenes by two distinct mechanisms—entailing transiently generated (1) carbenes and ylides (via Fe catalysis) or (2) doubly nucleophilic gem -di-metallics (via Cr catalysis). Merging carbonyls to form an alkene by removing their oxygens is rare, yet synthetically useful, and the selective combination of two different carbonyls is especially challenging. Now, two strategies for cross-metathesis of unbiased carbonyls have been developed. An Fe-catalysed carbene/ylide strategy affords Z -alkenes, while Cr-catalysed gem -di-metals yield E -alkenes.