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Enantioselective Catalysis with Pyrrolidinyl Gold(I) Complexes: DFT and NEST Analysis of the Chiral Binding Pocket.

Giuseppe ZuccarelloLeonardo J NanniniAna Arroyo-BondíaNicolás FinciasIsabel ArranzAlba H Pérez-JimenoMatthias PeetersInmaculada Martín-TorresAnna SadurníVíctor García-VázquezYufei WangMariia S KirillovaMarc Montesinos-MagranerUlysse CaniparoliGonzalo D NúñezFeliu MaserasMaría BesoraImma EscofetAntonio M Echavarren
Published in: JACS Au (2023)
A new generation of chiral gold(I) catalysts based on variations of complexes with JohnPhos-type ligands with a remote C 2 -symmetric 2,5-diarylpyrrolidine have been synthesized with different substitutions at the top and bottom aryl rings: from replacing the phosphine by a N -heterocyclic carbene (NHC) to increasing the steric hindrance with bis- or tris-biphenylphosphine scaffolds, or by directly attaching the C 2 -chiral pyrrolidine in the ortho-position of the dialkylphenyl phosphine. The new chiral gold(I) catalysts have been tested in the intramolecular [4+2] cycloaddition of arylalkynes with alkenes and in the atroposelective synthesis of 2-arylindoles. Interestingly, simpler catalysts with the C 2 -chiral pyrrolidine in the ortho-position of the dialkylphenyl phosphine led to the formation of opposite enantiomers. The chiral binding pockets of the new catalysts have been analyzed by DFT calculations. As revealed by non-covalent interaction plots, attractive non-covalent interactions between substrates and catalysts direct specific enantioselective folding. Furthermore, we have introduced the open-source tool NEST, specifically designed to account for steric effects in cylindrical-shaped complexes, which allows predicting experimental enantioselectivities in our systems.
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