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Process Development of Chan−Lam Coupling

有机合成与工艺文献分享 2024-11-05 07:26
文章摘要
本文探讨了Chan−Lam偶联反应中铜盐的选择及其对反应性能的影响。研究发现,阳离子Cu(I)盐在次级磺酰胺的Chan−Lam芳基化反应中表现优于其他Cu(I)或Cu(II)源,这归因于其不含可能竞争的X型配体(如AcO−, Cl−等),这些配体可能抑制磺酰胺的配位。在乙腈中,19的溶解度较低(2.9 mg/mL),但加入三乙胺后,混合物变澄清并立即变为深绿色,这被认为是Cu(I)被空气氧化生成19阴离子与Cu(II)中心的2:1复合物。此外,研究还评估了Cu负载量对Chan−Lam反应本身的影响,发现最佳Cu量为0.5−0.6 equiv。在小规模实验中,KPF6与CuCl的组合被确定为[Cu(ACN)4]PF6的有效替代品,但在放大实验中,由于CuCl的低溶解度导致卤素提取缓慢,未能达到可接受的产率。使用CuX2(X = Cl, Br, I)替代CuCl在多克规模上获得了更一致的结果,但观察到由Ar−Bpin键卤化产生的新副产物。通过迭代优化,最终确定了CuCl/CuCl2与KPF6的混合系统,该系统在规模化操作中表现良好,无需预混合无机物。
Process Development of Chan−Lam Coupling
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