What question did this study set out to answer?

The research aims to develop a method for nucleophilic functionalization of 2H-imidazole N-oxides using carbonyl compounds.

April 18, 2026

Direct C(sp 2 )H Eliminative Nucleophilic Alkylation of 2 H ‐Imidazole N‐Oxides With Ketones Toward Imidazole‐Derived Enaminones

Key Points

The research aims to develop a method for nucleophilic functionalization of 2H-imidazole N-oxides using carbonyl compounds.
Developed a nucleophilic functionalization method for nonaromatic 2H-imidazole 1-oxides.
Utilized sodium sulfide (Na2S) as a base to generate active carbanions.
Conducted postmodification using Suzuki–Miyaura cross-coupling reactions.
Achieved a wide range of azaheterocyclic enaminonic compounds with high yields.
Demonstrated that the reaction follows an SNHAE mechanism.
Produced enaminone derivatives that can form promising dimeric molecular systems.

Abstract

An efficient method based on the nucleophilic functionalization of nonaromatic 2 H ‐imidazole 1‐oxides with carbonyl compounds has been developed for the first time to afford a wide range of azaheterocyclic enaminonic compounds of various architectures in yields of up to quantitative. It has been found that the reaction proceeds via a nucleophilic hydrogen substitution (S N H AE) mechanism, in which sodium sulfide (Na 2 S) serves as a base, generating an active carbanion. The enaminone derivatives can be deprotonated to result in the promising dimeric molecular systems. The postmodification of enaminones containing a CBr bond has also been carried out via the Suzuki–Miyaura cross‐coupling reaction. The obtained compounds are of interest in the design of pharmacologically active compounds ligands and building blocks of functional materials.

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Direct C(sp 2 )H Eliminative Nucleophilic Alkylation of 2 H ‐Imidazole N‐Oxides With Ketones Toward Imidazole‐Derived Enaminones

Key Points

Abstract

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