CORM-Mediated Pd-Catalyzed Coupling Reactions: Ketone Synthesis and CO-Releasing Mechanisms

Abstract

Palladium-catalyzed carbonylative C─C coupling reactions provide an efficient route to synthesize natural products and pharmaceuticals through three-component condensation processes. However, the use of gaseous carbon monoxide (CO) – a colorless, odorless, and toxic gas – has hindered its broad adoption as a C1 source. Addressing this, the development of versatile CO-releasing molecules (CORMs) and user-friendly, nongaseous palladium-catalyzed carbonylation techniques have emerged as a crucial research area. This review outlines recent advancements in the application of CORMs to palladium-catalyzed carbonylative C─C coupling reactions, with a focus on CO generation mechanisms and carbonyl utilization efficiency. CORMs are classified into three categories: single carbon monoxide releasing molecules (s-CORMs), multiple carbon monoxide releasing molecules (m-CORMs), and binary metal carbonyl compounds (BMCCs). By offering a comprehensive overview of the current research landscape and providing practical guidelines for CORM selection, this review aims to assist researchers in developing effective carbonylative strategies.