Donnelly Kian, Baumann Marcus
School of Chemistry, University College Dublin, Science Centre South, Belfield, Dublin 4, Ireland.
Chemistry. 2024 Jun 6;30(32):e202400758. doi: 10.1002/chem.202400758. Epub 2024 May 2.
Small carbo- and heterocyclic ring systems have experienced a significant increase in importance in recent years due to their relevance in modern pharmaceuticals, as building blocks for designer materials or as synthetic intermediates. This necessitated the development of new synthetic methods for the preparation of these strained ring systems focusing on effectiveness and scalability. The high ring strain of these entities as well as the use of high-energy reagents and intermediates has often challenged their synthesis. Continuous flow approaches have thus emerged as highly effective means to safely and reliably access these strained scaffolds. In this short review, key developments in this field are summarised showcasing the power of continuous flow approaches for accessing 3- and 4-membered ring systems via thermal, photo- and electrochemical processes.
近年来,由于小碳环和杂环系统在现代药物中具有相关性,作为设计材料的构建块或合成中间体,其重要性显著增加。这就需要开发新的合成方法来制备这些张力环系统,重点是有效性和可扩展性。这些实体的高环张力以及高能试剂和中间体的使用常常对它们的合成提出挑战。因此,连续流动方法已成为安全可靠地获得这些张力骨架的高效手段。在这篇简短的综述中,总结了该领域的关键进展,展示了连续流动方法通过热、光和电化学过程获得三元和四元环系统的能力。
