Acyl Fluorides in Late‐Transition‐Metal Catalysis

In this Review, we summarize the current state of the art in late‐transition‐metal‐catalyzed reactions of acyl fluorides, covering both their synthesis and further transformations. In organic reactions, the relationship between stability and reactivity of the starting substrates is usually characterized by a trade‐off. Yet, acyl fluorides display a very good balance between these properties, which is mostly due to their moderate electrophilicity. Thus, acyl fluorides (RCOF) can be used as versatile building blocks in transition‐metal‐catalyzed reactions, for example, as an “RCO” source in acyl coupling reactions, as an “R” source in decarbonylative coupling reactions, and as an “F” source in fluorination reactions. Starting from the cleavage of the acyl C−F bond in acyl fluorides, various transformations are accessible, including C−C, C−H, C−B, and C−F bond‐forming reactions that are catalyzed by transition‐metal catalysts that contain the Group 9–11 metals Co, Rh, Ir, Ni, Pd, or Cu. The formation and transformation of acyl fluorides in reactions catalyzed by late transition metals are discussed in this Review. Because of their moderate electrophilicity, acyl fluorides exhibit a desirable balance between stability and reactivity; they can be used as versatile building blocks and serve as sources of “RCO”, “R”, and “F” fragments.