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辅助串联钯催化实现瞬态生成的取代烯醇醚的区域发散性 Heck 芳基化反应。

Assisted Tandem Pd Catalysis Enables Regiodivergent Heck Arylation of Transiently Generated Substituted Enol Ethers.

作者信息

Duhamel Thomas, Scaringi Simone, Leforestier Baptiste, Poblador-Bahamonde Amalia I, Mazet Clément

机构信息

Department of Organic Chemistry, University of Geneva, 30 quai Ernest Ansermet, 1211 Geneva, Switzerland.

出版信息

JACS Au. 2023 Jan 12;3(1):261-274. doi: 10.1021/jacsau.2c00645. eCollection 2023 Jan 23.

DOI:10.1021/jacsau.2c00645
PMID:36711081
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9875267/
Abstract

Two complementary regiodivergent Pd-catalyzed assisted tandem [isomerization/Heck arylation] reactions are reported. They provide access to a broad array of acyclic trisubstituted vinyl ethers starting from readily available alkenyl ethers. In both cases, the isomerization is conducted with a [Pd-H] precatalyst supported by tris--butyl phosphine ligands. When the catalyst is modified by the addition of a chelating bisphosphine ligand (dppp), an organic base (CyNMe), sodium acetate, and aryl triflates are used as electrophiles, the α-arylation pathway is promoted preferentially. The β-arylation pathway is favored for electron-deficient and electron-neutral aryl halides when the catalyst is simply modified by the addition of an excess of an organic base (EtN) after completion of the isomerization reaction. Electron-rich aryl halides lead to reduced levels of regiocontrol. The moderate stereoselectivity obtained are proposed to reflect the absence of stereocontrol in the isomerization step. Computational analyses suggest that migratory insertion is selectivity-determining for both the arylations. For the β-selective arylation, an energy decomposition analysis underscored that electronic factors favor α-regioselectivity and steric effects favor β-regioselectivity. Preliminary investigations show that high levels of stereoselectivity can be achieved for the α-selective arylation by ligand control. Complementarily, reaction conditions for postcatalytic stereo-correction have also been identified for each catalytic system.

摘要

报道了两种互补的区域发散性钯催化辅助串联[异构化/Heck芳基化]反应。它们能从容易获得的烯基醚出发,制备出各种各样的无环三取代乙烯基醚。在这两种情况下,异构化反应都是由三叔丁基膦配体支持的[Pd-H]预催化剂进行的。当通过添加螯合双膦配体(dppp)、有机碱(CyNMe)、醋酸钠对催化剂进行修饰,并使用芳基三氟甲磺酸酯作为亲电试剂时,优先促进α-芳基化途径。当在异构化反应完成后简单地通过添加过量的有机碱(EtN)对催化剂进行修饰时,缺电子和电子中性的芳基卤化物有利于β-芳基化途径。富电子芳基卤化物导致区域控制水平降低。所获得的适度立体选择性被认为反映了异构化步骤中缺乏立体控制。计算分析表明,迁移插入对两种芳基化反应的选择性起决定性作用。对于β-选择性芳基化反应,能量分解分析强调电子因素有利于α-区域选择性,而空间效应有利于β-区域选择性。初步研究表明,通过配体控制,α-选择性芳基化反应可以实现高水平的立体选择性。作为补充,还为每个催化体系确定了催化后立体校正的反应条件。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2281/9875267/715d988cad4f/au2c00645_0010.jpg
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