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钴(III)氢化物配合物催化烯烃氢硅烷化反应中选择性的控制。

Control over Selectivity in Alkene Hydrosilylation Catalyzed by Cobalt(III) Hydride Complexes.

机构信息

School of Chemistry and Chemical Engineering, Key Laboratory of Special Functional Aggregated Materials, Ministry of Education, Shandong University, Shanda Nanlu 27, Jinan 250100, People's Republic of China.

Institute for Inorganic Chemistry (AOC), Karlsruhe Institute of Technology (KIT), Engesserstr. 15, 76131 Karlsruhe, Germany.

出版信息

Inorg Chem. 2022 Dec 12;61(49):19710-19725. doi: 10.1021/acs.inorgchem.2c02094. Epub 2022 Dec 1.

DOI:10.1021/acs.inorgchem.2c02094
PMID:36455154
Abstract

Two new bisphosphine [PCP] pincer cobalt(III) hydrides, [(L)Co(PMe)(H)(Cl)] (, = 2,6-((PhP)(Et)N)CH) and [(L)Co(PMe)(H)(Cl)] (, = 2,6-((PrP)(Et)N)CH), as well as one new bissilylene [SiCSi] pincer cobalt(III) hydride, [(L)Co(PMe)(H)(Cl)] (, = 1,3-((PhC(BuN)Si)(Et)N)CH), were synthesized by reaction of the corresponding protic [PCP] or [SiCSi] pincer ligands , and with CoCl(PMe). Despite the similarities in the ligand scaffolds, the three cobalt(III) hydrides show remarkably different performance as catalysts in alkene hydrosilylation. Among the PCP pincer complexes, has higher catalytic activity than complex , and both catalysts afford -Markovnikov selectivity for both aliphatic and aromatic alkenes. In contrast, the catalytic activity for alkene hydrosilylation of silylene complex is comparable to phosphine complex , but a dependence of regioselectivity on the substrates was observed: While aliphatic alkenes are converted in an -Markovnikov fashion, the hydrosilylation of aromatic alkenes affords Markovnikov products. The substrate scope was explored with 28 examples. Additional experiments were conducted to elucidate these mechanisms of hydrosilylation. The synthesis of cobalt(I) complex (L)Co(PMe) () and its catalytic properties for alkene hydrosilylation allowed for the proposal of the mechanistic variations that occur in dependence of reaction conditions and substrates.

摘要

两种新型膦 PCp 夹钴(III)氢化物,[(L)Co(PMe)(H)(Cl)] (, = 2,6-((PhP)(Et)N)CH) 和 [(L)Co(PMe)(H)(Cl)] (, = 2,6-((PrP)(Et)N)CH),以及一种新型双硅烯 SiCSi 夹钴(III)氢化物 [(L)Co(PMe)(H)(Cl)] (, = 1,3-((PhC(BuN)Si)(Et)N)CH),通过相应的质子化 [PCP] 或 [SiCSi] 夹合配体, 和 CoCl(PMe)反应合成。尽管配体骨架相似,但三种钴(III)氢化物在烯烃硅氢化反应中表现出显著不同的催化性能。在 PCP 夹合配合物中, 比配合物 具有更高的催化活性,两种催化剂均对脂肪族和芳香族烯烃具有 -Markovnikov 选择性。相比之下,硅烯配合物 进行烯烃硅氢化反应的活性与膦配合物 相当,但观察到对底物的区域选择性存在依赖性:虽然脂肪族烯烃以 -Markovnikov 方式转化,但芳香族烯烃的硅氢化反应得到 Markovnikov 产物。用 28 个实例探索了底物范围。进行了额外的实验以阐明这些硅氢化反应的机制。钴(I)配合物 (L)Co(PMe) ()的合成及其对烯烃硅氢化反应的催化性能允许提出在反应条件和底物依赖性下发生的机制变化的建议。

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