Wu Shuo, Melchiorre Paolo
ICIQ - Institute of Chemical Research of Catalonia, the Barcelona Institute of Science and Technology, Avenida Països Catalans 16-, 43007, Tarragona, Spain.
University of Bologna, Department of Industrial Chemistry 'Toso Montanari', via Piero Gobetti, 85-, 40129, Bologna, Italy.
Angew Chem Int Ed Engl. 2024 Sep 9;63(37):e202407520. doi: 10.1002/anie.202407520. Epub 2024 Aug 2.
Thioesters are important in synthesis, materials science, and biology, and their preparation traditionally relies on the use of disagreeable thiols. Here, we report a thiol-free protocol that stitches together widespread carboxylic acids and aryl halides, producing a diverse array of thioesters. Crucial to this strategy is the discovery that tetramethylthiourea can serve as both a sulfur source and, upon direct excitation by purple light, as a strong reductant, suitable for activating aryl halides via single-electron transfer. Coupling of the resulting aryl radicals provides an isothiouronium ion intermediate, which can be attacked by carboxylic acids via a polar pathway, affording the thioester products under mild conditions.
硫酯在合成、材料科学和生物学中都很重要,其制备传统上依赖于使用难闻的硫醇。在此,我们报告了一种无硫醇的方法,该方法将广泛存在的羧酸和芳基卤化物连接在一起,生成了各种各样的硫酯。这一策略的关键在于发现四甲基硫脲既可以作为硫源,又可以在受到紫光直接激发时作为强还原剂,适用于通过单电子转移活化芳基卤化物。由此产生的芳基自由基的偶联提供了一种异硫脲鎓离子中间体,该中间体可以通过极性途径被羧酸攻击,在温和条件下得到硫酯产物。
