581064-89-3Relevant academic research and scientific papers
Effects of pendant ligand binding affinity on chain transfer for 1-hexene polymerization catalyzed by single-site zirconium amine bis-phenolate complexes
Steelman, D. Keith,Xiong, Silei,Pletcher, Paul D.,Smith, Erin,Switzer, Jeffrey M.,Medvedev, Grigori A.,Delgass, W. Nicholas,Caruthers, James M.,Abu-Omar, Mahdi M.
supporting information, p. 6280 - 6288 (2013/06/26)
The kinetics of 1-hexene polymerization using a family of five zirconium amine bis-phenolate catalysts, Zr[tBu-ONXO]Bn2 (where X = THF (1), pyridine (2), NMe2 (3), furan (4), and SMe (5)), has been investigated to uncover
From THF to Furan: Activity tuning and mechanistic insight via sidearm donor replacement in group IV amine bis(phenolate) polymerization catalysts
Groysman, Stanislav,Goldberg, Israel,Kol, Moshe,Genizi, Elisheva,Goldschmidt, Zeev
, p. 3013 - 3015 (2008/10/08)
A family of olefin polymerization catalysts based on group IV metal complexes of amine bis(phenolate) ligands were studied. Weakening the sidearm donor of the ligands was found to affect the activity of the resultant polymerization catalysts. An increase in termination rate for both zirconium and titanium complexes led to either a decrease in the molecular weight of the resultant product, or a loss of living polymerization character.
