Organocatalytic Dynamic Kinetic Resolution Enabled Asymmetric Synthesis of Phosphorus‐Containing Chiral Helicenes

Abstract

AbstractThe catalytic asymmetric synthesis of phosphorus‐containing helicenes remains a formidable challenge, presumably due to the lack of rational design of substrates, right choice of reactions together with highly effective catalysis systems. Herein, we disclosed an efficient and practical DKR‐involving (dynamic kinetic resolution) cascade strategy toward synthesizing a novel family of phosphorus‐installing helicenes by peptide‐mimic phosphonium salt (PPS) catalysis. The sequential process of PPS‐catalyzed phospha‐Michael attack and copper salt‐facilitated aromatization led to the formation of unprecedented phosphorus‐containing oxa[5]helicene scaffolds. A wide variety of substrates bearing an assortment of functional groups were compatible with this protocol, furnishing the expected helical compounds in high yields and excellent stereoselectivities. Additionally, the helical products could be conveniently elaborated to promising phosphine ligands with perfectly retained helical chirality, which turned out to be highly efficient chiral ligands in transition metal‐catalyzed reactions. These findings not only expand the current library of phosphorus‐containing helicenes but also offer insights to explore other challenging scaffolds with molecular chirality.