Tang Rong, Xu Qian, Hoye Thomas R
Department of Chemistry, University of Minnesota, Minneapolis, MN 55455, USA.
Molecules. 2025 Jun 16;30(12):2610. doi: 10.3390/molecules30122610.
1,2,4-Cyclohexatrienes are strained, reactive intermediates often formed by the tetradehydro-Diels-Alder (TDDA) reaction of a conjugated enyne bearing a tethered alkyne as the enynophile. The ene component is commonly the π-bond of an aromatic group. In this focused study, we investigated the reactivity of a symmetrical substrate in which the pair of terminal ene moieties were simple 2-propenyl groups. The intermediate 1,2,4-cyclohexatriene, now bearing a 5-isopropenyl group, underwent competitive aromatization (the most usual outcome of the strain-relieving event of the cyclohexatriene), along with an intramolecular [1,5]-hydrogen atom migration, ultimately producing a non-benzenoid, pyrrole derivative. This represents a previously unknown process for a 1,2,4-cyclohexatriene derivative. Mechanistic aspects of the competitive processes were revealed by experiments performed in the presence of various protic additives (MeOD and BHT).
1,2,4-环己三烯是一种张力较大的活性中间体,通常由带有连接炔烃作为亲烯体的共轭烯炔通过十四脱氢狄尔斯-阿尔德(TDDA)反应形成。烯组分通常是芳基的π键。在这项重点研究中,我们研究了一种对称底物的反应性,其中一对末端烯部分是简单的2-丙烯基。现在带有5-异丙烯基的中间体1,2,4-环己三烯经历了竞争性芳构化(环己三烯应变缓解事件最常见的结果),以及分子内[1,5]-氢原子迁移,最终生成一种非苯型吡咯衍生物。这代表了1,2,4-环己三烯衍生物以前未知的过程。在各种质子添加剂(MeOD和BHT)存在下进行的实验揭示了竞争过程的机理方面。