1
Howard W Turner, Jo Ann M Canich, Bernard J Folie: High temperature polymerization process using ionic catalysts to produce polyolefins. Exxon Chemical Patents, M S Spiering, W G Muller, April 18, 1995: US05408017 (113 worldwide citation)

This invention relates to a process for polymerizing olefins at high pressures in a polymerization medium at high temperature utilizing an ionic olefin polymerization catalyst derived from the reaction of a cyclopentadienyl-containing transition metal compound having a hydrolyzable alkyl or hydride ...


2
Turner Howard William, Canich Jo Ann Marie, Folie Bernard Jean: Methode de polymerisation a temperature elevee au moyen de catalyseurs ioniques pour lobtention de polyolefines, High temperature polymerization process using ionic catalysts to produce polyolefins. Exxonmobil Chemical Patents, BORDEN LADNER GERVAIS, December 23, 1993: CA2117888

This invention relates to a process for polymerizing olefins at high pressures in a polymerization medium at high temperature utilizing an ionic olefin polymerization catalyst derived from the reaction of a cyclopentadienyl-containing transition metal compound having a hydrolyzable alkyl or hydride ...


3
Turner Howard William, Canich Jo Ann Marie, Folie Bernard J: High temperature polymerization process using ionic catalysts to produce polyolefins. Exxon Chemical Patents, SPIERING M Susan, December 23, 1993: WO/1993/025590

This invention relates to a process for polymerizing olefins at high pressures in a polymerization medium at high temperature utilizing an ionic olefin polymerization catalyst derived from the reaction of a cyclopentadienyl-containing transition metal compound having a hydrolyzable alkyl or hydride ...


4
Turner Howard William, Canich Jo Ann Marie, Folie Bernard J: High temperature polymerization process using ionic catalysts to produce polyolefins. Exxon Chemical Patents, April 5, 1995: EP0646140-A1

This invention relates to a process for polymerizing olefins at high pressures in a polymerization medium at high temperature utilizing an ionic olefin polymerization catalyst derived from the reaction of a cyclopentadienyl-containing transition metal compound having a hydrolyzable alkyl or hydride ...