March 3, 2026

Catalyst-Free Alkylation of Quinoxalines in Water

Key Points

The method achieves efficient synthesis of C3-alkylated quinoxalin-2(1H)-ones without catalysts, indicating a significant advancement in organic chemistry.
Markedly, the reaction's kinetics accelerate in water due to strong hydrogen-bonding effects that enhance reactant interaction and aggregation.
Analysis adopts a catalyst-free approach, which selectively activates the imine moiety, diverging from traditional metal-dependent strategies.
These findings highlight a promising alternative for synthesizing functionalized compounds, potentially easing synthetic processes in various applications.

Abstract

Abstract A catalyst-free nucleophilic allylation of quinoxalines in water has been developed, enabling efficient synthesis of versatile, functionalized C3-alkylated quinoxalin-2(1H)-ones. This method selectively activates the imine moiety through hydrogen-bonding interactions, shunning conventional strategies that require transition metals, photoirradiation, or elevated temperatures. Remarkably, the reaction exhibits accelerated kinetics in water, due to strong hydrogen-bonding effects that facilitate reactant aggregation.

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Catalyst-Free Alkylation of Quinoxalines in Water

Key Points

Abstract

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