Terpolymerization of Linear and Alicyclic α-Olefins with Norbornene and Ethylene by <i>ansa</i>-Metallocene Catalysts

Marconi, Roberto; Boggioni, Laura; Ravasio, Andrea; Colo, Francesco Di; Tritto, Incoronata; Stehling, Udo

doi:10.1021/ma102515c

Cited by 24 publications

(27 citation statements)

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“…Such copolymers are called as cyclic olefin copolymers (COCs). The development of single‐site catalysts has realized the copolymerization not only with ethylene but also with α‐olefins, styrene, and olefins with functional groups …”

Section: Introductionmentioning

confidence: 99%

“…The addition of third comonomer is the efficient way to introduce unreactive comonomer. Synthesis of some cyclic olefin terpolymers are recently investigated . The aim of this work is to synthesize the NB‐enriched NB‐IP copolymer using fluorenylamido‐ligated titanium catalyst 1 , which showed very high activity for the (co‐)polymerizations of NB with α‐olefins and dicyclopentadiene with ethylene .…”

Section: Introductionmentioning

confidence: 99%

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Synthesis of highly thermostable norbornene-isoprene-1-octene terpolymer with titanium catalyst

Tanaka

Matsuzaki

Nakayama

et al. 2017

J. Polym. Sci. Part A: Polym. Chem.

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Terpolymerization of norbornene (NB), isoprene (IP), and 1‐octene was achieved by using fluorenylamido‐ligated titanium catalyst, which showed very high activity for the copolymerization of NB and various α‐olefins. The content of IP in the terpolymer was controlled by the feed ratio and reaction temperature up to 7 mol %. The incorporated IP was mainly inserted in 1,4‐addition. The polymer was dissolved into common solvents such as toluene and chloroform, which enabled the preparation of a transparent film by solution casting process. The degradation temperature of the terpolymer was comparable with other cyclic olefin copolymers and the glass transition temperature (Tg) was higher than that of NB‐1‐octene copolymer with almost the same NB content. © 2017 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2017, 55, 2136–2140

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Synthesis of highly thermostable norbornene-isoprene-1-octene terpolymer with titanium catalyst

Tanaka

Matsuzaki

Nakayama

et al. 2017

J. Polym. Sci. Part A: Polym. Chem.

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“…The opportunity of incorporating other olefins (as a third monomer) into the poly(ethylene- co -norbornene) backbone may lead to improvements in the mechanical or other physical properties of the polymer. There are only a few reports on terpolymerization of ethylene and norbornene [ 28 , 29 , 30 , 31 ]. The introduction of a termonomer, either a linear α-olefin, such as 1-octene (O), or an alicyclic α-olefin, like vinylcyclohexane, has been reported by Marconi et al [ 29 ], but a strong decrease of M w has been observed for both 1-octene and vinylcyclohexane.…”

Section: Introductionmentioning

confidence: 99%

“…There are only a few reports on terpolymerization of ethylene and norbornene [ 28 , 29 , 30 , 31 ]. The introduction of a termonomer, either a linear α-olefin, such as 1-octene (O), or an alicyclic α-olefin, like vinylcyclohexane, has been reported by Marconi et al [ 29 ], but a strong decrease of M w has been observed for both 1-octene and vinylcyclohexane. It was shown that 1-octene and vinylcyclohexane behave as chain termination/transfer agents, that is they act as reagents that both terminate and facilitate the reinitiation of a growing polymer chain [ 29 , 32 ].…”

Section: Introductionmentioning

confidence: 99%

Terpolymerization of Substituted Cycloolefin with Ethylene and Norbornene by Transition Metal Catalyst

et al. 2016

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Abstract:Ethylene-norbornene terpolymerization experiments using 5-alkyl-substituted norbornenes (5-pentyl-2-norbornene (C 5 N) and 5-octyl-2-norbornene (C 8 N)) or dicyclopentadiene (DCPD) were conducted with two ansa-metallocenes, [Zr{(η 5 -C 9 H 6 ) 2 C 2 H 4 }Cl2] (1) and [Zr{(η 5 -2,5-Me 2 C 5 H 2 ) 2 CHEt}Cl 2 ] (2), activated by methylaluminoxane (MAO). The terpolymers obtained were investigated in detail by determining the microstructure and termonomer contents by 13 C NMR, molar masses and thermal properties. Results were compared to those of ethylene (E)-norbornene (N) terpolymerizations with 1-octene. 2, with lower steric hindrance and a shorter bridge, gave the best activities, termonomer incorporation and molar masses. The size of the substituent in 5-alkyl substituted norbornene also plays a role. C 8 N gives the highest activities and molar masses, while DCPD terpolymers have the highest cycloolefin content. Terpolymers are random; their molar masses, much higher than those in 1-octene terpolymers, are in a range useful for industrial applications. Finally, T g values up to 152˝C were obtained. For similar N content, poly(E-ter-N-ter-C 8 N)s and poly(E-ter-N-ter-DCPD)s have the lowest and the highest T g values, respectively. Thus, the presence of an eight-carbon atom pendant chain in C 8 N increases the flexibility of the polymer chain more than a five-carbon atom pendant chain in C 5 N. The higher rigidity of C 5 N may lead to lower activities and to increasing probability of σ-bond metathesis and chain termination, as evidenced by chain-end group analysis.

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“…Research on polymerization using a metallocene catalysts began with the identification of the structure of ferrocene by Wilkins and Fischer in 1952 and was developed further by Kaminsky in the 1980s 1,2 . In the case of copolymerization using a metallocene catalyst, preparing polymers with a narrow molecular weight distribution, high stereo-regularity and uniform comonomer incorporation is much easier than when a conventional Ziegler-Natta catalyst is used.…”

Section: Introductionmentioning

confidence: 99%

Comonomer Effects of High a-Olefins in Metallocene Catalyzed Terpolymerization: Thermal Properties

Kim¹

2013

Asian J. Chem.

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A range of polymers were synthesized using a rac-Et(Ind)2ZrCl2 catalyst and methylaluminoxane co-catalyst system. The polymers, homo-, co-and terpolymers were comprised of ethylene, 1-decene and p-methyl styrene. The structures and compositions of the polymers were examined by 13 C nuclear magnetic spectroscopy and 1 H nuclear magnetic spectroscopy. The catalytic activity, weight-averaged molecular weight, number-averaged molecular weight and molecular weight distribution of the polymers were characterized. The glass transition temperature, melting temperature, crystallization temperature, crystallinity, storage modulus, loss modulus and tan δ of the terpolymers according to the 1-decene feed molar concentration were also examined. compared with the thermal properties of the terpolymers, focusing on the comonomer effects of 1-decene. EXPERIMENTALAll manipulations were carried out in an inert nitrogen atmosphere. High-purity grade ethylene gas (Dae-myung Gas Co.) was used after passing it through an alumina/zeolite column. 1-Decene (Aldrich, 94 %), n-hexane (SAMCHUN, 99.5 %) and toluene (SAMCHUN, 99.5 %) were purified by heating them over sodium under reflux, using benzophenone as an indicator and stored in a dry box. A solution of rac-Et(Ind) 2 ZrCl 2 (Sigma Aldrich) in toluene was also prepared. p-methyl styrene (p-MS) was distilled under reduced pressure in the presence of CaH 2 after performing the standard purification procedure. The specimens for thermal and wide-angle X-ray scattering analyses were prepared by compression molding in a hot press. Typically, all the polymerization reactions were carried out in a 300 mL stainless steel autoclave with a mechanical stirrer.After saturating the autoclave with ethylene gas, polymerization was initiated by injecting the required amount of the monomers, catalyst solution and methylaluminoxane (MAO). After several minutes, the polymer solution was poured into a diluted HCl/EtOH solution. The resulting polymer was washed with EtOH (600 mL) and dried in vacuo.

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Terpolymerization of Linear and Alicyclic α-Olefins with Norbornene and Ethylene by ansa-Metallocene Catalysts

Cited by 24 publications

References 50 publications

Synthesis of highly thermostable norbornene-isoprene-1-octene terpolymer with titanium catalyst

Synthesis of highly thermostable norbornene-isoprene-1-octene terpolymer with titanium catalyst

Terpolymerization of Substituted Cycloolefin with Ethylene and Norbornene by Transition Metal Catalyst

Comonomer Effects of High a-Olefins in Metallocene Catalyzed Terpolymerization: Thermal Properties

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