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Combining palladium and ammonium halide catalysts for Morita–Baylis–Hillman carbonates of methyl vinyl ketone: from 1,4-carbodipoles to ion pairs

Yang Yang, Bo Zhu, Lei Zhu, Ying Jiang, Chunling Guo, Jing Gu, Qin Ouyang, Wei Du, Ying‐Chun Chen

2021Chemical Science31 citationsDOIOpen Access PDF

Abstract

Here we report that Morita-Baylis-Hillman carbonates from diverse aldehydes and methyl vinyl ketones can be directly utilised as palladium-trimethylenemethane 1,4-carbodipole-type precursors, and both reactivity and enantioselectivity are finely regulated by adding a chiral ammonium halide as the ion-pair catalyst. The newly assembled intermediates, proposed to contain an electronically neutral π-allylpalladium halide complex and a reactive compact ion pair, efficiently undergo asymmetric [4 + 2] annulations with diverse activated alkenes or isatins, generally with high regio-, diastereo- and enantio-selectivity, and even switchable regiodivergent or diastereodivergent annulations can be well realised by tuning the substrate or catalyst assemblies. An array of control experiments, including UV/Vis absorption study and density functional theory calculations, are conducted to rationalise this new double activation mode combining a palladium complex and an ammonium halide as an ion-pair catalyst.

Topics & Concepts

HalideCatalysisChemistryPalladiumSelectivityMethyl vinyl ketoneAmmoniumKetoneOrganic chemistryAsymmetric Synthesis and CatalysisCatalytic C–H Functionalization MethodsSynthesis and Catalytic Reactions
Combining palladium and ammonium halide catalysts for Morita–Baylis–Hillman carbonates of methyl vinyl ketone: from 1,4-carbodipoles to ion pairs | Litcius