Organoborane-modified silica supports for olefin polymerization: Soluble models for metallocene catalyst deactivation
RA Metcalfe, DI Kreller, J Tian, H Kim, NJ Taylor…
Index: Metcalfe, Robert A.; Kreller, David I.; Tian, Jun; Kim, Hoon; Taylor, Nicholas J.; Corrigan, John F.; Collins, Scott Organometallics, 2002 , vol. 21, # 8 p. 1719 - 1726
Full Text: HTML
Citation Number: 34
Abstract
The novel tris (organoborane) 3 was prepared from organoboranes 2 [(C6F5) 2BX: X= Cl or H) and trifunctional silsesquioxane 1 [T7O9 (OH) 3]. This compound is an effective cocatalyst for olefin polymerization in combination with Cp2ZrMe2, but 1H and 19F NMR spectroscopic studies have established that the active species is most probably [Cp2ZrMe][Me2B (C6F5) 2], formed in situ from 3 along with the novel (but inactive) silsesquioxane 5.
Related Articles:
[Delpech, Fabien; Guzei, Ilia A.; Jordan, Richard F. Organometallics, 2002 , vol. 21, # 6 p. 1167 - 1176]
[Tian, Jun; Wang, Shaotian; Feng, Yuding; Li, Jieming; Collins, Scott Journal of Molecular Catalysis A: Chemical, 1999 , vol. 144, # 1 p. 137 - 150]
[Krempner, Clemens; Reinke, Helmut; Weichert, Katja European Journal of Inorganic Chemistry, 2007 , # 8 p. 1067 - 1071]