Supplementary information files for Mechanistic insight into Pd-catalyzed asymmetric alkylation of indoles with diazoesters employing bipyridine-N,N’-dioxides as chiral controllers
Supplementary files for article Mechanistic insight into Pd-catalyzed asymmetric alkylation of indoles with diazoesters employing bipyridine-N,N’-dioxides as chiral controllers
Metal‐catalyzed asymmetric alkylation of indoles with α‐diazoesters is well‐known, however, the underlying mechanisms of this reaction, particularly the origin of stereoselectivity, remain uncertain. For the Pd catalysis, we address this cutting‐edge challenge from two complementary viewpoints – i) the molecular level regarding a single catalytically active Pd center; and ii) nano‐level Pd species investigating the factors favoring the appearance of the preferred catalytic centers. The formation of the active catalytic species was monitored by structural methods (NMR and ESI‐MS), and metal particles were characterized with electron microscopy (SEM, EDX). On the molecular level,chiral bipyridine‐N,N’‐dioxides proved to be competent chiral controllers. The kinetic and DFT computational data revealed a crucial role of water in the rate and selectivity determining steps and showed that the enantioselectivity of the process is controlled by the protodepalladation step. On the nano‐scale, the important effect of catalyst precursor on the overall reaction performance was shown.
Funding
Japanese Government
Loughborough University
Multielectron photoredox catalysts based on charge accumulation in conjugated macrocycles
Engineering and Physical Sciences Research Council
Find out more...Perm Research and Education Centre
Russian Science Foundation. Grant Number: 22-13-00247
History
School
- Science
Department
- Chemistry