Boosting the activity of Mizoroki–Heck cross-coupling reactions with a supramolecular palladium catalyst favouring remote Zn⋯pyridine interactions†

IF 3.3 3区化学 Q2 CHEMISTRY, PHYSICAL Faraday Discussions Pub Date : 2023-01-09 DOI:10.1039/D2FD00165A

Naba Abuhafez and Rafael Gramage-Doria

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Abstract

Transition metal catalysis benefitting from supramolecular interactions in the secondary coordination sphere in order to pre-organize substrates around the active site and reach a specific selectivity typically occurs under long reaction times and mild reaction temperatures with the aim to maximize such subtle effects. Herein, we demonstrate that the kinetically labile Zn⋯N interaction between a pyridine substrate and a zinc–porphyrin site serving for substrate binding is a unique type of weak interaction that enables identification of supramolecular effects in transition metal catalysis after one hour at a high reaction temperature of 130 °C. Under carefully selected reaction conditions, supramolecularly-regulated palladium-catalyzed Mizoroki–Heck reactions between 3-bromopyridine and terminal olefins (acrylates or styrenes) proceeded in a more efficient manner compared to the non-supramolecular version. The supramolecular catalysis developed here also displayed interesting substrate-selectivity patterns.

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用超分子钯催化剂促进Mizoroki-Heck交叉偶联反应的活性，有利于远端Zn，吡啶相互作用†

过渡金属催化利用二级配位球中的超分子相互作用，以便在活性位点周围预先组织底物并达到特定的选择性，通常在较长的反应时间和较低的反应温度下进行，目的是最大化这种微妙的效果。在这里，我们证明了吡啶底物和用于底物结合的锌-卟啉位点之间的动力学不稳定的Zn⋯N相互作用是一种独特的弱相互作用，能够在130°C的高反应温度下一小时后识别过渡金属催化中的超分子效应。在精心选择的反应条件下，超分子调节的钯催化的3-溴吡啶和末端烯烃(丙烯酸酯或苯乙烯)之间的Mizoroki-Heck反应比非超分子版本更有效。这里发展的超分子催化也显示出有趣的底物选择性模式。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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