Stereodefined alkenes with a fluoro-chloro terminus as a uniquely enabling compound class

Trisubstituted alkenyl fluorides are important compounds for drug discovery, agrochemical development and materials science. Despite notable progress, however, many stereochemically defined trisubstituted fluoroalkenes either cannot be prepared efficiently or can only be accessed in one isomeric form. Here we outline a general solution to this problem by first unveiling a practical, widely applicable and catalytic strategy for stereodivergent synthesis of olefins bearing a fluoro-chloro terminus. This has been accomplished by cross-metathesis between two trisubstituted olefins, one of which is a purchasable but scarcely utilized trihaloalkene. Subsequent cross-coupling can then be used to generate an assortment of trisubstituted alkenyl fluorides. The importance of the advance is highlighted by syntheses of, among others, a fluoronematic liquid-crystal component, peptide analogues bearing an E - or a Z -amide bond mimic, and all four stereoisomers of difluororumenic ester (an anti-cancer compound). Stereochemically defined trisubstituted alkenyl fluorides are important compounds for drug discovery, agrochemical development and materials science, but their preparation is challenging. Now, a practical and widely applicable catalytic strategy enables access to a large assortment of olefins bearing a fluoro-chloro terminus. Subsequent cross-coupling generates the corresponding trisubstituted alkenyl fluorides.