美国明尼苏达大学Hoye, Thomas R.团队报道了从互补配对的炔中制备游离的碳烯。相关研究成果发表在2024年6月25日出版的《自然—化学》。
碳烯(R1R2C:)类自由基、芳基和硝基构成了一个重要的中性、高能、反应性中间体家族,这些中间体是经过快速反应的短暂化学实体。炔烃(R3C≡CR4)是一个基本的官能团,具有很高的势能;然而,炔烃具有显著的动力学稳定性,使其能够方便地作为货架稳定的化学商品进行处理。由炔烃的高势能(即热力学)提供燃料,直接从炔烃中产生无金属碳烯的能力将是一个相当大的进步。
该文中,研究发现,这可以简单地通过加热2-炔基亚氨基杂环(一种含有亲核氮原子的环状化合物)与亲电炔烃的混合物来实现。研究人员证明了该过程的相当普遍性:许多货架稳定的炔烃亲电试剂与许多类别的(2-炔基)杂环亲核试剂接触,产生卡宾中间体,这些中间体立即经历许多类型的转化,从而提供了获得各种杂环产物的简便实用的途径。研究人员描述了反应的关键机制方面。
附:英文原文
Title: Free carbenes from complementarily paired alkynes
Author: Xu, Qian, Hoye, Thomas R.
Issue&Volume: 2024-06-25
Abstract: Carbenes (R1R2C:) like radicals, arynes and nitrenes constitute an important family of neutral, high-energy, reactive intermediates—fleeting chemical entities that undergo rapid reactions. An alkyne (R3C≡CR4) is a fundamental functional group that houses a high degree of potential energy; however, the substantial kinetic stability of alkynes renders them conveniently handleable as shelf-stable chemical commodities. The ability to generate metal-free carbenes directly from alkynes, fuelled by the high potential (that is, thermodynamic) energy of the latter, would constitute a considerable advance. We report here that this can be achieved simply by warming a mixture of a 2-alkynyl iminoheterocycle (a cyclic compound containing a nucleophilic nitrogen atom) with an electrophilic alkyne. We demonstrate considerable generality for the process: many shelf-stable alkyne electrophiles engage many classes of (2-alkynyl)heterocyclic nucleophiles to produce carbene intermediates that immediately undergo many types of transformations to provide facile and practical access to a diverse array of heterocyclic products. Key mechanistic aspects of the reactions are delineated.
DOI: 10.1038/s41557-024-01550-9
Source: https://www.nature.com/articles/s41557-024-01550-9
Nature Chemistry:《自然—化学》,创刊于2009年。隶属于施普林格·自然出版集团,最新IF:24.274
官方网址:https://www.nature.com/nchem/
投稿链接:https://mts-nchem.nature.com/cgi-bin/main.plex