配体控制的插入区域选择性通过阳离子单氧化双膦钯催化剂加速乙烯与丙烯酸甲酯的共聚反应。

Ligand-controlled insertion regioselectivity accelerates copolymerisation of ethylene with methyl acrylate by cationic bisphosphine monoxide-palladium catalysts.

作者信息

Mitsushige Yusuke, Carrow Brad P, Ito Shingo, Nozaki Kyoko

机构信息

Department of Chemistry and Biotechnology , Graduate School of Engineering , The University of Tokyo , 7-3-1 Hongo , Bunkyo-ku , Tokyo 113-8656 , Japan . Email:

Department of Chemistry , Princeton University , Princeton , New Jersey , USA.

出版信息

Chem Sci. 2016 Jan 1;7(1):737-744. doi: 10.1039/c5sc03361f. Epub 2015 Nov 3.

DOI:10.1039/c5sc03361f

PMID:29896357

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5952993/

Abstract

A new series of palladium catalysts ligated by a chelating bisphosphine monoxide bearing diarylphosphino groups (aryl-BPMO) exhibits markedly higher reactivity for ethylene/methyl acrylate copolymerisation when compared to the first generation of alkyl-BPMO-palladium catalysts that contain a dialkylphosphino moiety. Mechanistic studies suggest that the origin of this disparate catalyst behavior is a change in regioselectivity of migratory insertion of the acrylate comonomer as a function of the phosphine substituents. The best aryl-BPMO-palladium catalysts for these copolymerisations were shown to undergo exclusively 2,1-insertion, and this high regioselectivity avoids formation of a poorly reactive palladacycle intermediate. Furthermore, the aryl-BPMO-palladium catalysts can copolymerise ethylene with other industrially important polar monomers.

摘要

与第一代含有二烷基膦部分的烷基 - BPMO - 钯催化剂相比，一系列由带有二芳基膦基的螯合单膦氧化物（芳基 - BPMO）连接的钯催化剂在乙烯/丙烯酸甲酯共聚反应中表现出明显更高的反应活性。机理研究表明，这种不同催化剂行为的根源是丙烯酸酯共聚单体迁移插入的区域选择性随膦取代基的变化。这些共聚反应中最佳的芳基 - BPMO - 钯催化剂仅发生2,1 - 插入，这种高区域选择性避免了形成反应活性较差的钯环中间体。此外，芳基 - BPMO - 钯催化剂可以使乙烯与其他工业上重要的极性单体共聚。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d907/5952993/56f5e21f6f5e/c5sc03361f-s1.jpg

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配体控制的插入区域选择性通过阳离子单氧化双膦钯催化剂加速乙烯与丙烯酸甲酯的共聚反应。

Ligand-controlled insertion regioselectivity accelerates copolymerisation of ethylene with methyl acrylate by cationic bisphosphine monoxide-palladium catalysts.

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