氨解
化学
2-吡啶酮
催化作用
有机化学
组合化学
作者
Takeshi Yamada,Takeshi Yoshikawa,Nanako Tsuji,Mahiro Tamura,Marin Gogami,Ken Sakata,Manabu Hatano
摘要
Abstract A rigorous evaluation of 6‐halo‐2‐pyridone in the catalytic aminolysis of esters revealed that 6‐iodo‐2‐pyridone exhibits high catalytic activity, particularly in the presence of phenyl esters. In this reaction, a series of amines and aromatic esters gave the corresponding amides in high yield. To elucidate the reaction mechanism of the 6‐iodo‐2‐pyridone‐catalyzed aminolysis of esters, 1 H NMR experiments, kinetic studies, and density functional theory (DFT) calculations were conducted. The combined results demonstrate that the reaction proceeds via the formation of a 1:1:1 complex comprising the catalyst, the amine, and the phenyl ester. In this context, 6‐iodo‐2‐pyridone thus works as an acid–base bifunctional catalyst, successfully activating both the ester and the amine. Notably, a π–π interaction was observed between the catalyst and the phenyl ester in the transition state. The stereoelectronic effect of iodine most likely contributes to a favorable degree of this π–π interaction, facilitating a smooth transition to the subsequent leaving of phenol. The low energy barrier for the tautomerization between 6‐iodo‐2‐pyridone and 6‐iodo‐2‐hydroxypyridine also facilitates the process.
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