Ioannou Georgios I, Montagnon Tamsyn, Kalaitzakis Dimitris, Pergantis Spiros A, Vassilikogiannakis Georgios
Department of Chemistry University of Crete Vasilika Vouton 71003 Crete Greece.
ChemPhotoChem. 2018 Oct;2(10):860-864. doi: 10.1002/cptc.201800068. Epub 2018 May 2.
The use of a modified prototype continuous flow reactor (CFR) as a pivotal part of a number of versatile singlet oxygen-mediated reaction sequences is presented herein. These sequences target rapid access to structural complexity and diversity. The prototype reactor achieves high conversions and productivities by attaining large specific surface areas for these biphasic reactions. In the reactor, the reaction solution is nebulized (using either oxygen or air) and the resulting aerosol is irradiated by an LED jacket that surrounds the Pyrex reaction chamber. The one pot procedures developed herein are, according to many different criteria, both highly efficient and green. The key common intermediates and the source of both the complexity and variety of the final products are -acyl imminium ions (NAI; protonated -acyl enamines). The initial substrates are simple and readily accessible furans and the diverse array of products is composed of different complex γ-lactams. Many of the products are of particular interest due to their close relationships to known biologically active molecules.
本文介绍了一种改进的原型连续流动反应器(CFR)作为多种多功能单线态氧介导反应序列关键部分的应用。这些反应序列旨在快速构建结构复杂性和多样性。该原型反应器通过为这些双相反应提供大的比表面积来实现高转化率和生产率。在反应器中,反应溶液被雾化(使用氧气或空气),产生的气溶胶由围绕派热克斯玻璃反应室的LED外套照射。本文开发的一锅法根据许多不同标准,既高效又环保。关键的共同中间体以及最终产物复杂性和多样性的来源是N-酰基亚胺离子(NAI;质子化的N-酰基烯胺)。初始底物是简单且易于获得的呋喃,多样的产物由不同的复杂γ-内酰胺组成。许多产物因其与已知生物活性分子的密切关系而特别受关注。
