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Azoarene activation for Schmidt-type reaction and mechanistic insights

Fantao Meng, Yanan Wang, Xiao‐Yan Qin, Shijun Li, Jing Li, Wen‐Juan Hao, Shu‐Jiang Tu, Yu Lan, Bo Jiang

2022Nature Communications35 citationsDOIOpen Access PDF

Abstract

The Schmidt rearrangement, a reaction that enables C-C or C-H σ bond cleavage and nitrogen insertion across an aldehyde or ketone substrate, is one of the most important and widely used synthetic tools for the installation of amides and nitriles. However, such a reaction frequently requires volatile, potentially explosive, and highly toxic azide reagents as the nitrogen donor, thus limiting its application to some extent. Here, we show a Schmidt-type reaction where aryldiazonium salts act as the nitrogen precursor and in-situ-generated cyclopenta-1,4-dien-1-yl acetates serve as pronucleophiles from gold-catalyzed Nazarov cyclization of 1,3-enyne acetates. Noteworthy is that cycloketone-derived 1,3-enyne acetates enabled ring-expansion relay to access a series of 2-pyridone-containing fused heterocycles, in which nonsymmetric cycloketone-derived counterparts demonstrated high regioselectivity. Aside from investigating the scope of this Schmidt-type reaction, mechanistic details of this transformation are provided by performing systematic theoretical calculations.

Topics & Concepts

Schmidt reactionRegioselectivityChemistryReagentKetoneEnyneCombinatorial chemistryAldehydeSubstrate (aquarium)AzideStereochemistryOrganic chemistryCatalysisGeologyOceanographyCatalytic Alkyne ReactionsChemical Synthesis and AnalysisAsymmetric Hydrogenation and Catalysis
Azoarene activation for Schmidt-type reaction and mechanistic insights | Litcius