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解析辅助配体对用于烯烃聚合的中性[P,O]螯合镍配合物异构化的作用机制及影响

Unraveling the Mechanism and Influence of Auxiliary Ligands on the Isomerization of Neutral [P,O]-Chelated Nickel Complexes for Olefin Polymerization.

作者信息

Tan Jeremy, Liu Jingyi, Zhang Xinglong

机构信息

Department of Chemistry, National University of Singapore, 4 Science Drive 2, Singapore, 117544, Republic of Singapore.

Department of Chemistry, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong, China.

出版信息

J Org Chem. 2025 Feb 7;90(5):2052-2061. doi: 10.1021/acs.joc.4c02856. Epub 2025 Jan 28.

DOI:10.1021/acs.joc.4c02856
PMID:39874148
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11811995/
Abstract

The copolymerization of ethylene with polar monomers presents a significant challenge. While palladium catalysts have shown promise, nickel catalysts are more economical but suffer from poor activity. Previous studies suggest that the isomerization step involved in the nickel-catalyzed polymerization may influence the catalyst activities. Herein, we explore the isomerization mechanisms of two phosphine-phenoxide-ligated catalysts using density functional theory (DFT) studies. We found that out of dissociative, tetrahedral, and associative mechanisms, the associative mechanism is the likeliest, with a pendant methoxy oxygen atom from the ligand to fulfill the fifth coordination site on nickel before Berry pseudorotation. The effect of varying auxiliary ligands on the activation barrier heights was also investigated and found that electron-releasing alkyl groups on substituted pyridine ligands have diminished electronic influence on pseudorotational barriers, but if present at the -positions, will elevate the barriers due to larger steric influences. The electron-withdrawing groups on the ligand result in weaker ligand binding and lower pseudorotational barriers. These insights into the mechanisms of isomerization and auxiliary ligand effects may offer valuable guidance for optimizing catalyst performance in copolymerization processes by lowering the barrier of isomerization by fine-tuning the steric and electronic influences of auxiliary ligands and enhancing overall copolymerization efficiency.

摘要

乙烯与极性单体的共聚反应面临重大挑战。虽然钯催化剂已展现出潜力,但镍催化剂更经济,不过活性较差。先前的研究表明,镍催化聚合反应中涉及的异构化步骤可能会影响催化剂活性。在此,我们使用密度泛函理论(DFT)研究来探索两种膦-酚盐配位催化剂的异构化机理。我们发现,在解离、四面体和缔合机理中,缔合机理最有可能,即配体上的一个甲氧基氧原子在贝里假旋转之前先占据镍上的第五个配位点。我们还研究了不同辅助配体对活化能垒高度的影响,发现取代吡啶配体上的供电子烷基对假旋转能垒的电子影响减弱,但如果位于β位,由于更大的空间影响会提高能垒。配体上的吸电子基团会导致配体结合变弱和假旋转能垒降低。这些关于异构化机理和辅助配体效应的见解,可能通过微调辅助配体的空间和电子影响来降低异构化能垒,并提高整体共聚效率,从而为优化共聚过程中的催化剂性能提供有价值的指导。

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