化学
部分
吡啶
组合化学
亲核细胞
背景(考古学)
催化作用
烯烃
光催化
胺气处理
迈克尔反应
光催化
有机化学
古生物学
生物
作者
Paula Pérez‐Ramos,Raquel G. Soengas,Humberto Rodríguez‐Solla
摘要
Enaminones are key intermediates in the synthesis of several derivatives with important applications in medicinal chemistry. Furthermore, many marketed drugs feature the enaminone structural moiety. In this context, we have developed a photoredox and nickel catalytic system to rapidly forge the enaminone scaffold from 3-bromochromones via a Michael reaction of an amine with an electron-deficient alkene moiety and subsequent photocatalyzed debromination. With this dual catalytic system, a range of structurally diverse enaminone derivatives have been achieved in good yields with total trans selectivity. Mechanistic studies indicate that the key to the success of this process is the formation of an unexplored ternary Ni-complex with 3-bromochromone and a pyridinium salt, which is crucial for the effective activation of the α,β-unsaturated system towards the nucleophilic addition.
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