Selective Ni-Catalyzed Cross-Electrophile Coupling of Heteroaryl Chlorides and Aryl Bromides at 1:1 Substrate Ratio

Shannon, Stahl, Zhi-Ming, Su, Darren L., Poole, Mohammad, Rafiee, Robert S., Paton, Daniel J., Weix
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Abstract

Nickel-catalyzed cross-electrophile coupling (XEC) reactions of (hetero)aryl electrophiles represent appealing alternatives to palladium-catalyzed methods for biaryl synthesis, but they often generate significant quantities of homocoupling and/or proto-dehalogenation side products. In this study, an informer library of heteroaryl chloride and aryl bromide coupling partners is used to identify Ni-catalyzed XEC conditions that access high selectivity for the cross-product when using equimolar quantities of the two substrates. Two different catalyst systems are identified that show complementary scope and broad functional-group tolerance, and time-course data suggest the two methods follow different mechanisms. A NiBr2/terpyridine catalyst system with Zn as the reductant converts the aryl bromide into an aryl-zinc intermediate that undergoes in situ coupling with 2-chloropyridines, while a NiBr2/bipyridine catalyst system with tetrakis(dimethylamino)ethylene as the reductant uses FeBr2 and NaI as additives to achieve selective cross-coupling.
杂芳基氯化物和芳基溴化物在 1:1 底物比下的选择性 Ni- 催化交叉亲电偶联
镍催化的(杂)芳基亲电偶联(XEC)反应是钯催化的生物芳基合成方法的诱人替代品,但它们通常会产生大量的均偶联和/或原脱卤副产物。本研究利用杂芳基氯和芳基溴偶联剂的信息库,确定了镍催化 XEC 的条件,当使用等摩尔量的两种底物时,可获得高选择性的交叉产物。研究发现了两种不同的催化剂体系,它们具有互补性和广泛的官能团耐受性,时间历程数据表明这两种方法遵循不同的机理。以 Zn 为还原剂的 NiBr2/terpyridine 催化剂体系可将芳基溴转化为芳基锌中间体,并与 2-氯吡啶发生原位偶联;而以四(二甲基氨基)乙烯为还原剂的 NiBr2/bipyridine 催化剂体系则使用 FeBr2 和 NaI 作为添加剂来实现选择性交叉偶联。
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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