C1-Symmetric Heterocyclic Zirconocenes as Catalysts for Propylene Polymerization, 1

The synthesis of C1‐symmetric zirconocene complexes bearing the 2,5‐dimethyl‐7H‐cyclopenta[1,2‐b:4,3‐b′]dithiophene ligand (S2‐3) linked to substituted cyclopentadienes is described. Different syntheses of S2‐3, the common intermediate for the preparation of these complexes, are discussed. Many of t...

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Veröffentlicht in:	Macromolecular chemistry and physics 2004-11, Vol.205 (17), p.2275-2291
Hauptverfasser:	Nifant'ev, Ilya E., Laishevtsev, Ilya, Ivchenko, Pavel V., Kashulin, Igor A., Guidotti, Simona, Piemontesi, Fabrizio, Camurati, Isabella, Resconi, Luigi, Klusener, Peter A. A., Rijsemus, Jos J. H., de Kloe, Kees P., Korndorffer, Frans M.
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Sprache:	eng
Schlagworte:	isotactic metallocene catalysts NMR poly(propylene) (PP) thermal properties
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creator	Nifant'ev, Ilya E. Laishevtsev, Ilya Ivchenko, Pavel V. Kashulin, Igor A. Guidotti, Simona Piemontesi, Fabrizio Camurati, Isabella Resconi, Luigi Klusener, Peter A. A. Rijsemus, Jos J. H. de Kloe, Kees P. Korndorffer, Frans M.
description	The synthesis of C1‐symmetric zirconocene complexes bearing the 2,5‐dimethyl‐7H‐cyclopenta[1,2‐b:4,3‐b′]dithiophene ligand (S2‐3) linked to substituted cyclopentadienes is described. Different syntheses of S2‐3, the common intermediate for the preparation of these complexes, are discussed. Many of these complexes have been found to be highly active in propylene polymerization, to require very low amounts of methylalumoxane to be activated, and to produce poly(propylene)s of low isotacticity and melting points. 13C NMR analysis shows that the poly(propylene)s are fully regioregular and that the stereoerrors are randomly distributed, as shown by the enantiomorphic‐site triad test E ≈ 1. The experimental pentad distribution was fitted using a two‐site model with different probability parameters for each site. The probability of chain back‐skip was also taken into account. The molecular weight and crystallinity of the poly(propylene)s are dependent upon the type of substituents on the cyclopentadienyl ring, and the correlation between mmmm content and melting point of the PP confirms the random distribution of stereoerrors. Correlation between % mmmm pentad and melting point.
doi_str_mv	10.1002/macp.200400238
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Many of these complexes have been found to be highly active in propylene polymerization, to require very low amounts of methylalumoxane to be activated, and to produce poly(propylene)s of low isotacticity and melting points. 13C NMR analysis shows that the poly(propylene)s are fully regioregular and that the stereoerrors are randomly distributed, as shown by the enantiomorphic‐site triad test E ≈ 1. The experimental pentad distribution was fitted using a two‐site model with different probability parameters for each site. The probability of chain back‐skip was also taken into account. The molecular weight and crystallinity of the poly(propylene)s are dependent upon the type of substituents on the cyclopentadienyl ring, and the correlation between mmmm content and melting point of the PP confirms the random distribution of stereoerrors. 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Many of these complexes have been found to be highly active in propylene polymerization, to require very low amounts of methylalumoxane to be activated, and to produce poly(propylene)s of low isotacticity and melting points. 13C NMR analysis shows that the poly(propylene)s are fully regioregular and that the stereoerrors are randomly distributed, as shown by the enantiomorphic‐site triad test E ≈ 1. The experimental pentad distribution was fitted using a two‐site model with different probability parameters for each site. The probability of chain back‐skip was also taken into account. The molecular weight and crystallinity of the poly(propylene)s are dependent upon the type of substituents on the cyclopentadienyl ring, and the correlation between mmmm content and melting point of the PP confirms the random distribution of stereoerrors. 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The experimental pentad distribution was fitted using a two‐site model with different probability parameters for each site. The probability of chain back‐skip was also taken into account. The molecular weight and crystallinity of the poly(propylene)s are dependent upon the type of substituents on the cyclopentadienyl ring, and the correlation between mmmm content and melting point of the PP confirms the random distribution of stereoerrors. Correlation between % mmmm pentad and melting point.</abstract><cop>Weinheim</cop><pub>WILEY-VCH Verlag</pub><doi>10.1002/macp.200400238</doi><tpages>17</tpages></addata></record>
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title	C1-Symmetric Heterocyclic Zirconocenes as Catalysts for Propylene Polymerization, 1
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