Advances in Ni <sup>I</sup> /Ni <sup>III</sup> -Catalyzed C(sp <sup>2</sup> )–Heteroatom Cross-Couplings
Aleksander R. Bena, Bartholomäus Pieber
Abstract
High Resolution Image Download MS PowerPoint Slide C(sp 2 )–heteroatom couplings operating via Ni I /Ni III catalysis have emerged as an alternative to canonical Pd 0 /Pd II systems that require complex ligand architectures. Despite intensive research efforts during the past decade, catalytic methods employing this approach are still mostly confined to activated starting materials and require high catalyst loadings due to the low catalytic activity of Ni I and undesired catalyst deactivation events. This article highlights recent advances in the field toward solving these long-standing challenges. We survey strategies that streamline the generation of catalytically competent Ni I species from bench-stable Ni II precatalysts, and discuss mechanistic studies that shed light on deactivation pathways and the rate-determining oxidative addition of aryl halides. In the final section, we highlight recently developed synthetic methodologies, which provide evidence that limitations can indeed be addressed by working at elevated temperatures, employing alternative electrophiles, harnessing the benefits of additives, or fine-tuning the metal’s reactivity through the ligand field.