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Recent Development of Bis-Cyclometalated Chiral-at-Iridium and Rhodium Complexes for Asymmetric Catalysis

Purusattam Dey, Pramod Rai, Biplab Maji

2021ACS Organic & Inorganic Au18 citationsDOIOpen Access PDF

Abstract

The field of asymmetric catalysis has been developing to access synthetically efficacious chiral molecules from the last century. Although there are many sustainable ways to produce nonracemic molecules, simplified and unique methodologies are always appreciated. In the recent developments of asymmetric catalysis, chiral-at-metal Lewis acid catalysis has been recognized as an attractive strategy. The catalysts coordinatively activate a substrate while serving the sole source of chirality by virtue of its helical environment. These configurationally stable complexes were utilized in a large number of asymmetric transformations, ranging from asymmetric Lewis acid catalysis to photoredox and electrocatalysis. Here we provide a comprehensive review of the current advancements in asymmetric catalysis utilizing iridium and rhodium-based chiral-at-metal complexes as catalysts. First, the asymmetric transformations via LUMO and HOMO activation assisted by a chiral Lewis acid catalyst are reviewed. In the second part, visible-light-induced asymmetric catalysis is summarized. The asymmetric transformation via the electricity-driven method is discussed in the final section.

Topics & Concepts

Enantioselective synthesisCatalysisRhodiumLewis acids and basesIridiumChemistryChirality (physics)Combinatorial chemistryChiral Lewis acidNanotechnologyOrganic chemistryMaterials sciencePhysicsChiral symmetry breakingQuarkQuantum mechanicsNambu–Jona-Lasinio modelCatalytic C–H Functionalization MethodsAsymmetric Hydrogenation and CatalysisAsymmetric Synthesis and Catalysis
Recent Development of Bis-Cyclometalated Chiral-at-Iridium and Rhodium Complexes for Asymmetric Catalysis | Litcius