Density Functional Theory Mechanistic Insight into the Base-Free Nickel-Catalyzed Suzuki–Miyaura Cross-Coupling of Acid Fluoride: Concerted versus Stepwise Transmetalation

Density functional theory mechanistic study has been carried out to account for the base-free nickel-catalyzed Suzuki–Miyaura coupling of acid fluorides (ArC­(O)­F) with boronic acids (Ar′B­(OH)₂). After oxidative addition to break the C–F bond of acid fluoride, the resultant ArC­(O)­[Ni]F species undergoes transmetalation with Ar′B­(OH)₂ to give ArC­(O)­[Ni]­Ar′. Subsequently, ArC­(O)­[Ni]­Ar′ can either undergo decarbonylation, finally leading to the coupling product (ArAr′), or reductive elimination to give ketone byproduct ArC­(O)­Ar′. The kinetic competition between the two pathways controls the chemoselectivity of the reaction, and transmetalation is the rate-determining step of the coupling. Importantly, it was found that transmetalation prefers a stepwise mechanism over a conventional concerted one. Detailed analyses indicate that the strong fluorophilicity of boron facilitates the base-free transmetalation and the coordination interaction between an oxygen atom of boronic acid and nickel gears the base-free transmetalation to undergo the stepwise pathway. The stepwise transmetalation mechanism also involves the nickel-catalyzed Suzuki–Miyaura coupling of aldehydes with ketone (PhC­(O)­CF₃) as the transmetalation promoter.