Search results for "copolymerization"

showing 8 items of 38 documents

Copolymerization of Ethylene with Selected Vinyl Monomers Catalyzed by Group 4 Metal and Vanadium Complexes with Multidentate Ligands: A Short Review

2021

This paper gives a short overview of homogeneous post-metallocene catalysts based on group 4 metal and vanadium complexes bearing multidentate ligands. It summarizes the catalytic behavior of those catalysts in copolymerization of ethylene with 1-olefins, with styrenic monomers and with α,ω-alkenols. The review is focused on finding correlations between the structure of a complex, its catalyst activity and comonomer incorporation ability, as well as the microstructure of the copolymer chains.

copolymerizationω-alkenolQD241-441Polymers and Plasticsαpost-metallocene catalyst1-olefinethyleneOrganic chemistryReviewGeneral Chemistryαω-alkenolstyrenic monomerPolymers
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Synthesis and characterization of ethylene-1-hexene copolymers prepared by using MgCl2(THF)2-supported Ziegler-Natta catalysts

2000

Ethylene was copolymerized with 1-hexene over vanadium (VOCl3 and VCl4) and titanium (TiCl4) catalysts supported on MgCl2(THF)2 and activated with Et2AlCl. So far these catalyst systems have not been known as initiators of ethylene-1-hexene copolymerization. The vanadium catalysts were more active than the titanium catalyst and, at identical comonomer concentrations in the feed, gave rise to a greater incorporation of 1-hexene into the copolymer. Even at relatively low fractions of 1-hexene, the MgCl2(THF)2-supported catalysts affected much the copolymer properties like density, melting point and crystallinity.

densityMaterials scienceEthylenePolymers and PlasticsbiologyGeneral Chemical Engineeringcopolymerization of ethylene with 1-hexeneVOCl3melting point and crystallinity of copolymarsNattabiology.organism_classificationCharacterization (materials science)Catalysis1-Hexenechemistry.chemical_compoundchemistryVCl4 and TiCl4 catalysts supported on MgCl2(THF0)2 and activated with Et2AlClPolymer chemistryMaterials ChemistryCopolymerOrganic chemistryPolimery
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Vanadium catalysts for ethylene-norbornene copolymerization

2020

Kopolimery cyklicznych olefin (COCs) stanowią obiecującą grupę materiałów o specyficznych, możliwych do zaprojektowania właściwościach. Szczególnym zainteresowaniem w tej grupie związków cieszą się kopolimery etylenu z norbornenem. Do ich syntezy stosuje się różnorodne kompleksy metali przejściowych, przede wszystkim pierwiastków z grupy 4. Artykuł stanowi przegląd literatury dotyczącej wykorzystania katalizatorów wanadowych z różnego rodzaju ligandami w syntezie kopolimerów etylenu z norbornenem. Opisano wpływ ligandów i warunków prowadzenia reakcji na aktywność oraz wybrane właściwości otrzymanych kopolimerów.

kopolimery cyklicznych olefinVanadium catalystCopolymerizationkatalizator wanadowyeNorbornenekopolimeryzacjaetylenCyclic olefin copolymersEthylennorbornenPolimery
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Copolymerization of ethylene with higher 1-olefins over vanadium catalyst supported on Al(i-Bu)3 modified magnesium carrier

2008

Badano proces kopolimeryzacji etylenu z wyższymi 1-olefinami (C6-C12) wobec katalizatora wanadowego (VOCl3) immobilizowanego na nośniku magnezowym MgCl2 (THF) 2 modyfikowanym z zastosowaniem Al(i-Bu) 3. W charakterze aktywatora nośnikowego prekatalizatora wanadowego zastosowano Et2AlCl. Stwierdzono, że aktywność takiego układu katalitycznego jest porównywalna z aktywnością katalizatora z prekursorem wanadowym osadzonym na niemodyfikowanym nośniku magnezowym. Zaobserwowano także, że wprowadzenie komonomeru do środowiska reakcji powoduje niewielkie zmniejszenie wydajności procesu w porównaniu z homopolimeryzacją etylenu, postępującą w miarę wzrostu stężenia komonomeru w środowisku reakcji. Do…

modyfikacjacopolymerization1-olefinakatalizator wanadowy1-olefinethylenevanadium catalystkopolimeryzacjaetylenzwiązki glinoorganicznenośnik magnezowymagnesium carrierorganoaluminum compoundsPolimery
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Facile and efficient chemical functionalization of aliphatic polyesters by cross metathesis

2016

International audience; An effective preparation of new tailor-made macromolecular materials via a combination of two (atom-efficient) catalytic transformations is reported. First, new aliphatic polyesters with alternated composition have been prepared using a salen aluminum catalyst system. Next, the pendant vinyl moieties in those copolymers have been selectively transformed into various functional groups by metathesis in the presence of homogeneous Grubbs catalysts. The latter metathesis reaction has been optimized in terms of catalytic activity and selectivity, to define the conditions for an effective and safe procedure that does not affect the macromolecular architecture. All polymer …

plga microspheresphosphate-buffered solutionin-vivo degradationPolymers and PlasticsBioengineeringmolecular-weight poly(l-lactide)010402 general chemistryMetathesis01 natural sciencesBiochemistry[ CHIM ] Chemical SciencesCatalysisacid) microspheresCopolymerSalt metathesis reactionenzymatic degradation[CHIM]Chemical SciencesOrganic chemistryRing-opening metathesis polymerisationcyclic anhydrides010405 organic chemistryChemistryring-opening copolymerizationOrganic Chemistryrenewable resources0104 chemical sciencesPolyester[ CHIM.POLY ] Chemical Sciences/Polymers[CHIM.POLY]Chemical Sciences/Polymersbiodegradable polymersSelectivityAcyclic diene metathesis
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Vanadium complex with tetradentate [O,N,N,O] ligand supported on magnesium type carrier for ethylene homopolymerization and copolymerization

2010

Immobilization of 1,2‐cyclohexylenebis(5‐chlorosalicylideneiminato)vanadium dichloride on the magnesium support obtained in the reaction of MgCl2·3.4EtOH with Et2AlCl gives a highly active precursor for ethylene homopolymerization and its copolymerization with 1‐octene. This catalyst exhibits the highest activity in conjunction with MAO, but it is also highly active with AlMe3 as a cocatalyst. On the other hand, when combined with chlorinated alkylaluminum compounds, Et2AlCl and EtAlCl2, it gives traces of polyethylene. Moreover, its catalytic activity is strongly affected by the reaction temperature: it increased with rising polymerization temperature from 20 °C to 60 °C. The kinetic curve…

polyethyleneZiegler‐Natta polymerizationcopolymerizationsupportsvanadium complexJournal of Polymer Science. Part A : Polymer Chemistry
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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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Modeling Heterogeneous copolymerization in scCO2

2008

supercritical carbon dioxidemass transferFree radical copolymerizationkinetic model
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