Durka Jakub, Zielińska Barbara, Gryko Dorota
Institute of Organic Chemistry Polish Academy of Sciences, Kasprzaka 44/52, 01-224, Warsaw, Poland.
Department of Chemistry, Warsaw University of Technology, Noakowskiego 3, 00-664, Warsaw, Poland.
Angew Chem Int Ed Engl. 2025 Feb 10;64(7):e202419450. doi: 10.1002/anie.202419450. Epub 2024 Dec 12.
While aromatic diazonium salts are important reagents in organic synthesis, 'Diazonium ions generated from ordinary aliphatic primary amines are usually useless for preparative purposes, since they lead to a mixture of products giving not only substitution by any nucleophile present, but also elimination and rearrangements if the substrate permits.' In this work, we report that this statement is no longer valid, and it is now possible to control diazotization of aliphatic amines by utilizing isopentyl nitrite in HFIP. This transformation enabled electrophilic aromatic substitution with these highly abundant and commercially available alkyl reagents, as well as transforming them into building blocks typically employed in organic synthesis. The methodology opens an avenue for reactions involving aliphatic amines, even such demanding substrates as amino acids, as a source of carbocations thus expanding the degree of chemical space.
虽然芳香重氮盐是有机合成中的重要试剂,但“由普通脂肪族伯胺生成的重氮离子通常对制备目的无用,因为它们会导致产物混合物,不仅会被任何存在的亲核试剂取代,而且如果底物允许,还会发生消除和重排。” 在这项工作中,我们报告这一说法不再成立,现在可以通过在HFIP中使用亚硝酸异戊酯来控制脂肪族胺的重氮化反应。这种转化使得能够用这些丰富且商业可得的烷基试剂进行亲电芳香取代反应,并将它们转化为有机合成中通常使用的结构单元。该方法为涉及脂肪族胺的反应开辟了一条途径,甚至对于像氨基酸这样要求苛刻的底物,也可作为碳正离子的来源,从而扩展了化学空间的范围。
