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Phosphine-Phenoxide Nickel Catalysts for Ethylene/Acrylate Copolymerization: Olefin Coordination and Complex Isomerization Studies Relevant to the Mechanism of Catalysis

Manar M. Shoshani, Shuoyan Xiong, James J. Lawniczak, Xinglong Zhang, Thomas F. Miller, Theodor Agapie

2022Organometallics15 citationsDOI

Abstract

The insertion copolymerization of ethylene and acrylate remains a challenge in polymer synthesis due to decreased activities upon incorporation of the polar monomer. Toward gaining mechanistic insight, two elusive four-membered chelated intermediates generated after acrylate insertion were prepared (1-CCO and 2-CCO), and their ligand coordination and substitution behavior were studied. Specifically, an ethylene-coordinated species was characterized by NMR spectroscopy upon exposing 2-CCO to ethylene at low temperatures, a rare observation for neutral late-transition metal polymerization catalysts. Thermodynamics of chelate-opening and monomer coordination from 2-CCO were determined at −90 °C (ΔG of 0.4 kcal/mol for ethylene and 1.9 kcal/mol for 1-hexene). The Gibbs energy barrier of ligand exchange from pyridine to ethylene, a prerequisite for ethylene insertion in catalysis, was determined to be 3.3 kcal/mol. Ligand-binding studies reveal that compared to NiMe and Ni(CH2SiMe3) complexes, acrylate inserted species 1L-CCO and 2L-CCO produce compressed thermodynamic binding scales for both electronically and sterically differentiating ligands, potentially related to their more electron-deficient nickel centers as suggested by computational studies. Triethylphosphine complexes 1P, 2P, and 2P–Me were observed as both cis and trans isomers in solution. 31P{1H} EXSY NMR studies of 2P reveal conversion between a cis and trans isomers that does not involve exchange with free PEt3, supporting the mechanism of intramolecular isomerization. 2-CCO, a neutral Ni(II) precatalyst that does not display an auxiliary ligand, serves as a highly active catalyst for copolymerization.

Topics & Concepts

ChemistryIsomerizationEthyleneLigand (biochemistry)Methyl acrylateSteric effectsPolymer chemistryCatalysisMonomerAssociative substitutionCopolymerPolymerizationPyridineNickelPhosphinePhotochemistryStereochemistryMedicinal chemistryOrganic chemistryPolymerBiochemistryReceptorOrganometallic Complex Synthesis and CatalysisAsymmetric Hydrogenation and CatalysisCarbon dioxide utilization in catalysis