510775-99-2Relevant academic research and scientific papers
Mechanistic studies of nickel(II) alkyl agostic cations and alkyl ethylene complexes: Investigations of chain propagation and isomerization in (α-diimine)Ni(II)-catalyzed ethylene polymerization
Leatherman, Mark D.,Svejda, Steven A.,Johnson, Lynda K.,Brookhart, Maurice
, p. 3068 - 3081 (2007/10/03)
The synthesis of a series of (α-diimine)NiR2 (R = Et, nPr) complexes via Grignard alkylation of the corresponding (α-diimine)NiBr2 precursors is presented. Protonation of these species by the oxonium acid [H(OEt2)2]+[BAr ′4]- at low temperatures yields cationic Ni(II) β-agostic alkyl complexes which model relevant intermediates present in nickel-catalyzed olefin polymerization reactions. The highly dynamic nature of these agostic alkyl cations is quantitatively addressed using NMR line broadening techniques. Trapping of these complexes with ethylene provides cationic Ni alkyl ethylene species, which are used to determine rates of ethylene insertion into primary and secondary carbon centers. The Ni agostic alkyl cations are also trapped by CH3CN and Me2S to yield Ni(R)(L)+ (L = CH3CN, Me2S) complexes, and the dynamic behavior of these species in the presence of varied [L] is discussed. The kinetic data obtained from these experiments are used to present an overall picture of the ethylene polymerization mechanism for (α-diimine)-Ni catalysts, including effects of reaction temperature and ethylene pressure on catalyst activity, polyethylene branching, and polymer architecture. Detailed comparisons of these systems to the previously presented analogous palladium catalysts are made.
