多种催化剂失活途径和连续配体回收对 Pd 催化 C-N 偶联反应动力学的影响。
Effects of Multiple Catalyst Deactivation Pathways and Continuous Ligand Recycling on the Kinetics of Pd-Catalyzed C-N Coupling Reactions.
机构信息
Chemical and Synthetic Development , Bristol-Myers Squibb , 1 Squibb Drive , New Brunswick , New Jersey 08903 , United States.
出版信息
J Org Chem. 2019 Apr 19;84(8):4653-4660. doi: 10.1021/acs.joc.8b02214. Epub 2018 Oct 24.
Unusual Pd deactivation and inhibition pathways were observed in a C-N coupling system. Irreversible catalyst deactivation involved C-H insertion of Pd into BippyPhos leading to an off-cycle palladaphosphacyclobutene. Product inhibition led to deactivated Pd but released ligand in the process, allowing it to react with additional Pd precursor to re-enter the catalytic cycle. In situ recycling of the ligand allowed for an input L/Pd ratio of ≪1 with no impact on reaction kinetics.
在 C-N 偶联体系中观察到了不寻常的 Pd 失活和抑制途径。不可逆的催化剂失活涉及 Pd 对 BippyPhos 的 C-H 插入,导致非循环钯膦环丁烯的形成。产物抑制导致 Pd 失活,但在这个过程中释放了配体,使其能够与额外的 Pd 前体反应,重新进入催化循环。配体的原位回收允许输入的 L/Pd 比 ≪1,而对反应动力学没有影响。
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