18666-26-7Relevant articles and documents
Metallocene compound
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Paragraph 0147-0150, (2017/01/02)
The present invention relates to a novel metallocene compound represented by Chemical formula 1. According to the present invention, the metallocene compound can be used when an olefin-based polymer is produced and has excellent activity. The metallocene
Synthesis, characterization, and catalytic properties of ansa-zirconocenes [Zr{1-Me2Si(3-η5-C9H5R) 2}Cl2] (R = Me, nPr, nBu, and Bz)
Alonso-Moreno, Carlos,Antinolo, Antonio,Carrillo-Hermosilla, Fernando,Otero, Antonio,Rodriguez, Ana M.,Sancho, Jose,Volkis, Victoria,Eisen, Moris
, p. 972 - 979 (2007/10/03)
The ansa-indene ligands {1-Me2Si(3-C9H 6R)2} [R = Me (1), nPr (2), nBu (3), and Bz (4)] were prepared by alkylation of the unsubstituted ansa-indene. These ligands were converted, by reaction with nBuLi, to the
Indenyl-amido titanium and zirconium dimethyl complexes: Improved synthesis and use in propylene polymerization
Resconi, Luigi,Camurati, Isabella,Grandini, Cristiano,Rinaldi, Marilisa,Mascellani, Nicoletta,Traverso, Orazio
, p. 5 - 26 (2007/10/03)
The synthesis of a series of indenyl amido titanium dimethyl complexes, by means of the direct synthesis from the ligand, a 2-fold excess of MeLi, and TiCl4 is reported. The 1H NMR spectra of the complexes show a quartet structure for the metal-bound methyl groups, due to through-metal proton-proton coupling. Coupling of Ti-methyl protons with protons on the Cp ring is also revealed by COSY 2D-NMR. The performance of the Ti complexes in propylene polymerization, including [Me2Si(Me4C5)(t-BuN)]TiMe2 (1-TiMe2), [Me2Si(Ind) (t-BuN)]TiMe2(2-TiMe2) and six other methyl titanium complexes bearing substituted indenyl ligands, has been investigated with different cocatalysts and at different polymerization temperatures and propylene concentrations. All complexes produce amorphous polypropylene (am-PP). The catalytic activity and molecular weight strongly depend on the substitution of the Cp ring: 2-TiMe2 gives polymers of lower molecular weight, while the presence of a methyl group in position 2 (as in 3-TiMe2) determines up to 4-fold increase in molecular weight. The type of cocatalyst influences mainly the catalytic activity, the borates being better activators than MAO, but also molecular weight, with again the borates giving higher molecular weights than MAO. ΔΔE? 2-TiMe2 = 3.4 kcal mol-1, ΔΔE? 5-TiMe2 = 3.8 kcal mol-1, ΔΔE? 3-TiMe2 = 6.3 kcal mol-1. Even if all the polymers produced are amorphous, 2-TiMe2 and 5-TiMe2 show a microstructure unbalanced towards isotacticity, while 3-TiMe2, 6-TiMe2 and 8-TiMe2 are syndiotactic-enriched. Chiral induction comes mainly from a weak enantiomorphic site control.