Search results for "Ziegler–Natta polymerization"

showing 3 items of 3 documents

Synthesis and olefin homo- and copolymerization behavior of new vanadium complexes bearing [OSSO]-type ligands

2017

Novel vanadium complexes bearing [OSSO]-type ligands having two phenolato units linked through the –CH2S(CH2)4SCH2– (1V) or –CH2S(CH2)2SCH2– (2V) bridge are synthesized with good yields by reacting a deprotonated ligand with VCl4. They are then used in ethylene (co)polymerization after activation with EtAlCl2 and Et2AlCl. In the presence of EtAlCl2, both complexes promote ethylene polymerization with very high activities, over 4 × 107 g/(mol h), leading to PEs with high molecular weight and narrow molecular weight distribution. The prepared complexes exhibit lower activity for ethylene/1-octene copolymerization. It is also revealed that the catalyst based on the –CH2S(CH2)4SCH2– bridged com…

Olefin fiberEthylene010405 organic chemistryLigandCopolymersComonomerVanadiumchemistry.chemical_elementVanadium complexPolyolefins010402 general chemistry01 natural sciencesCatalysis[OSSO]-ligand0104 chemical sciencesCatalysischemistry.chemical_compoundchemistryPolymerizationPolymer chemistryCopolymerZiegler–Natta polymerizationPhysical and Theoretical ChemistryReaction Kinetics, Mechanisms and Catalysis
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Synthesis, characterization and catalytic properties for olefin polymerization of two new dimeric zirconium(IV) complexes having diamine-bis(phenolat…

2015

Abstract Reaction of the zirconium tetrachloride with one equivalent of the sodium salt of the diamine bis (phenolate) ligand, L1H2 (Me2NCH2CH2N-(CH2-2-OH-3,5-tBu-C6H2)2) or L2H2 (Me2NCH2CH2N-(CH2-2-OH-3,5-tBu-C6H2)(CH2-2-OH-C6H4)) in the presence of air led to formation of [Lig1ZrCl]2(μ-O) and [Lig2ZrCl]2(μ-O), respectively. These novel oxo-bridged dinuclear zirconium complexes were characterized by elemental analysis, 1H NMR spectroscopy and by single-crystal X-ray diffraction. Their reactivities in polymerization of ethylene and 1-octene, upon activation with Al(iBu)3/Ph3CB(C6F5)4 and MAO, were examined. It was found that lack of t-Bu substituents on one phenolate ring cause a significan…

chemistry.chemical_classificationpolyethyleneZirconiumEthyleneLigandProcess Chemistry and Technologychemistry.chemical_elementPolymerCatalysisCatalysispoly(1-octene)chemistry.chemical_compoundPolymerizationchemistryDiaminezirconium catalystPolymer chemistryTetrachloridediamine-bis(phenolate) ligandOrganic chemistryZiegler–Natta polymerizationApplied Catalysis A : General : an International Journal Devoted to Catalytic Science and its Applications
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Ethylene polymerization with FI complexes having novel phenoxy‐imine ligands: Effect of metal type and complex immobilization

2011

A series of bis(phenoxy‐imine) vanadium and zirconium complexes with different types of R3 substituents at the nitrogen atom, where R3 = phenyl, naphthyl, or anthryl, was synthesized and investigated in ethylene polymerization. Moreover, the catalytic performance was verified for three supported catalysts, which had been obtained by immobilization of bis[N‐(salicylidene)‐1‐naphthylaminato]M(IV) dichloride complexes (M = V, Zr, or Ti) on the magnesium carrier MgCl2(THF)2/Et2AlCl. Catalytic performance of both supported and homogeneous catalysts was verified in conjunction with methylaluminoxane (MAO) or with alkylaluminium compounds (EtnAlCl3−n, n = 1–3). The activity of FI vanadium and zirc…

polyethylenecopolymerizationsupportsZiegler–Natta polymerizationcatalystsphenoxy‐imine complexesJournal of Polymer Science. Part A : Polymer Chemistry
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