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Abstract
We report transition metal catalysis using novel chiral metal-chelating ligands featuring a silanol coordinating group and peptide-like aminoamide scaffold. The catalytic properties of the silanol ligands are demonstrated through an enantioselective Cu-catalyzed N−H insertion affording unnatural amino acid derivatives in high selectivity. Our investigations into the silanol coordination mode include DFT calculations, ligand analogs, NMR and X-ray structure analyses, which support the formation of an H-bond stabilized silanol-chelating copper carbenoid complex. A π-π stacking interaction revealed by DFT calculations is proposed to enable selectivity for aryl diazoacetate substrates, overcoming the traditional limitations of using these substrates.
Supplementary materials
Title
Supporting Information for Silanol ligands for asymmetric catalysis
Description
Experimental procedure, characterization data, optimization tables, mechanistic studies including binding experiments using 1H NMR and in-situ infrared spectroscopic, results of non-linear experiment, copies of spectra, computational details, and Cartesian coordinates of all computed structures are available in the supporting information of this article. X-ray crystallographic data fare available from the Cambridge Crystallographic Data Centre (CCDC).
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