Polymerization of styrene with a simple rare earth metal initiator

“…Syndiotactic polystyrene (sPS) has become a very important engineering plastic because of its high melting point ( T m = 270 °C), rapid crystallization ability, low dielectric constant, and excellent resistance to heat and chemicals. − This inexpensive polymer is an attractive material for a large number of industrial applications because of its unique combination of valuable properties. ,− In 1986, sPS was discovered first by Ishihara at Idemitsu by using unlinked half-sandwich titanium catalysts . After that, a large number of titanium analogues generally formulated as [LTiX 3 ] have been extensively investigated, where L could be any of cyclopentadienyl-related ligands and X is a halogen or alkoxyl group .…”

DFT Studies on Styrene Polymerization Catalyzed by Cationic Rare-Earth-Metal Complexes: Origin of Ligand-Dependent Activities

“…Syndiotactic polystyrene (sPS) has become a very important engineering plastic because of its high melting point ( T m = 270 °C), rapid crystallization ability, low dielectric constant, and excellent resistance to heat and chemicals. − This inexpensive polymer is an attractive material for a large number of industrial applications because of its unique combination of valuable properties. ,− In 1986, sPS was discovered first by Ishihara at Idemitsu by using unlinked half-sandwich titanium catalysts . After that, a large number of titanium analogues generally formulated as [LTiX 3 ] have been extensively investigated, where L could be any of cyclopentadienyl-related ligands and X is a halogen or alkoxyl group .…”

DFT Studies on Styrene Polymerization Catalyzed by Cationic Rare-Earth-Metal Complexes: Origin of Ligand-Dependent Activities