A ligand-enabled, copper(ii)-catalyzed, highly selective and efficient synthesis of 2E-alkenylfurans from ynenones†

Organic chemistry frontiers : an international journal of organic chemistry Pub Date : 2023-01-01 DOI:10.1039/d2qo01741e

Shao-Yu Zou , Fang Yang , Xin Zhao , Xin-Ge Ren , Zi-Sheng Chen , Kegong Ji

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Abstract

We describe a ligand-enabled Cu(ii)-catalyzed approach for highly selective synthesis of 2E-alkenylfurans 2 from ynenones under an air atmosphere. In this reaction, the amide group on our designed 1,10-phenanthroline framework had a key role in promoting the α-H internal 1,2-migration to Cu(ii) carbene species and stabilizing the in situ-generated carbocation. This approach prevented the external oxygen participating to oxidize α-furyl copper carbene rapidly to 2-acylfuran. With the bifunctional ligand L1, the Cu(ii) catalyst became highly efficient at catalyzing ynenones selective to 2E-alkenylfurans 2 under an air atmosphere at room temperature in excellent yields. Moreover, the ligand could lower the Cu(ii) catalyst loading dramatically to ppm-level at a higher temperature and concentration, with turnover numbers of the Cu(ii) catalyst up to 9300. This economical and practical approach with good application was mild and environmentally friendly.

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配体使能、铜（ii）催化、高选择性和高效地从炔酮合成2E烯基呋喃†

我们描述了一种配体使能的Cu（ii）催化方法，用于在空气气氛下由炔酮高选择性合成2E烯基呋喃2。在该反应中，我们设计的1,10-菲咯啉骨架上的酰胺基在促进α-H内部1,2-迁移到Cu（ii）卡宾物种和稳定原位生成的碳阳离子方面发挥着关键作用。这种方法阻止了外部氧参与将α-呋喃铜卡宾快速氧化为2-酰基呋喃。使用双功能配体L1，Cu（ii）催化剂在空气气氛下在室温下以优异的产率高效催化对2E烯基呋喃2选择性的炔酮。此外，在更高的温度和浓度下，配体可以将Cu（ii）催化剂的负载量显著降低到ppm水平，Cu（ii）催化剂的周转数高达9300。这种经济实用且应用良好的方法温和且环保。

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Organic chemistry frontiers : an international journal of organic chemistry

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7.80

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