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Ruthenium‐Catalyzed Three‐Component Alkylation: A Tandem Approach to the Synthesis of Nonsymmetric <i>N,N‐</i>Dialkyl Acyl Hydrazides with Alcohols

Léo Bettoni, Nicolas Joly, Jean‐François Lohier, Sylvain Gaillard, Albert Poater, Jean‐Luc Renaud

2021Advanced Synthesis & Catalysis17 citationsDOI

Abstract

Abstract The borrowing hydrogen strategy has been applied in the synthesis of nonsymmetric N , N ‐dialkylated acyl hydrazides via a tandem three‐component reaction catalyzed by a phosphine free diaminocyclopentadienone ruthenium tricarbonyl complex. This strategy represents the first direct one‐pot approach to nonsymmetric functionalized acyl hydrazides. Different aromatic acyl hydrazides underwent dialkylation with a variety of primary or secondary alcohols and methanol or ethanol as alkylating agents in mild reaction conditions and good yields. Deuterium labelling experiments suggested that the primary or secondary alcohol was the hydrogen source in this tandem process. DFT calculations show that the combination of the tandem mixed product cannot be perfectly explained neither structurally nor electronically, but might be dependent of the physical state of the aldehyde or ketone intermediate (gaz vs. liquid) at the reaction temperature. magnified image

Topics & Concepts

ChemistryTandemRutheniumAldehydeCatalysisAlkylationKetoneMethanolAlcoholOrganic chemistryPrimary (astronomy)Cascade reactionPhosphineCombinatorial chemistryComposite materialPhysicsAstronomyMaterials scienceAsymmetric Hydrogenation and CatalysisCarbon dioxide utilization in catalysisChemical Synthesis and Analysis
Ruthenium‐Catalyzed Three‐Component Alkylation: A Tandem Approach to the Synthesis of Nonsymmetric <i>N,N‐</i>Dialkyl Acyl Hydrazides with Alcohols | Litcius