Bio‐inspired cationic polymerization of isoprene and analogues: state‐of‐the‐art

Ouardad, Samira; Bakleh, Marc-Elias; Kostjuk, Sergei V.; Ganachaud, François; Puskás, Judit E.; Deffieux, Alain; Peruch, Frédéric

doi:10.1002/pi.3223

Cited by 40 publications

(39 citation statements)

References 45 publications

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“…The reasons leading to the decrease of the content of double bonds in polymer chains of cationic polydienes are not clear up to date. According to some authors, this feature is connected with the occurrence of intramolecular cyclization with the formation of six‐membered cyclic structures. Others proposed another explanation of the observed reduced unsaturation, which is consistent with the formation of branched macromolecules due to the intensive chain transfer to polymer …”

Section: Introductionmentioning

confidence: 98%

“…In recent years, a great attention has been paid to the investigation of the cationic polymerization of conjugated dienes and, especially, isoprene . Polyisoprenes synthesized by cationic polymerization are usually characterized by broad multimodal molecular weight distribution (MWD), which is significantly changed through the polymerization.…”

Section: Introductionmentioning

confidence: 99%

“…The main feature of polydienes synthesized by cationic polymerization is the reduced unsaturation of synthesized polymers . The reasons leading to the decrease of the content of double bonds in polymer chains of cationic polydienes are not clear up to date.…”

Section: Introductionmentioning

confidence: 99%

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The Structure of Cationic Polyisoprene: Branching versus Cyclization

Розенцвет¹,

Козлов²,

Korovina³

et al. 2016

Macro Chemistry & Physics

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The structure, molecular weight, and molecular weight distribution (MWD) of polyisoprene fractions, which were obtained during the fraction of polyisoprene with broad MWD (M w/M n = 25.6) synthesized with tBuCl/TiCl4 initiating system have been investigated. It is established that chain transfer to polymer leading to branched macromolecules is responsible for the formation of polyisoprene with broad MWD and reduced unsaturation. It is shown for the first time that unsaturation decreased while the content of head and end groups in a single macromolecule increased with increasing molecular weight of polyisoprene fraction. The unsaturated part of the polymer chain consists of presumably trans‐1,4‐units independently of the molecular weight of polyisoprene fraction.

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Section: Introductionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

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The Structure of Cationic Polyisoprene: Branching versus Cyclization

Розенцвет¹,

Козлов²,

Korovina³

et al. 2016

Macro Chemistry & Physics

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“…2,3 Up to the end of the 60s, Friedel-Crafts catalysts, Lewis acids and/or other organometallic compounds were mainly used as initiating systems for the cationic polymerization of isoprene, whereas 25 from the 70s protic promoters were preferred. Furthermore, many polymerization conditions were investigated, varying the solvent, the temperature and the monomer concentration.…”

Section: Introductionmentioning

confidence: 99%

Carbocationic polymerization of isoprene using cumyl initiators: progress in understanding side reactions

et al. 2015

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International audienceThe cationic polymerization of isoprene using cumyl chloride/B(C6F5)(3) and cumyl ether/TiCl4 systems was investigated in dichloromethane or in dichloromethane/methylcyclohexane mixtures varying the polymerization conditions. Polymerizations were performed in all cases in the presence of a large excess of a proton trap (2,6-di-tert-butyl pyridine, d(t)BP) compared to initiator in order to suppress any protic side reactions. As a consequence, no polymerization went to completion. Independently of the reaction conditions, trans-1,4-oligomers were exclusively obtained with mainly an olefinic terminal group. It was highlighted that an important loss of double bonds yielding saturated parts was observed, even in the absence of protons, assuming that a great amount of double bond loss generally observed in isoprene cationic polymerization could be due to intramolecular cyclization reactions. Nevertheless, under particular conditions (low temperature and/or low polarity medium), branching and cross-linking reactions were also found responsible for double bond loss

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“…In recent years, great attention has been paid to the investigation of the cationic polymerization of conjugated dienes such as isoprene, 1,3‐pentadiene, and even alloocimene, a naturally occurring triterpene. This interest was mainly stimulated by the recent proposition that natural rubber biosynthesis resembles a cationic step‐growth/chain‐growth reaction . However, despite intensive investigations of the cationic polymerization of isoprene directed to study the effect of initiator/Lewis acid nature or mechanisms of initiation (cationation) and branching, the trans ‐1,4‐oligoisoprenes with low number‐average molecular weight (

{\bar{M}}_{n}

< 2000 g mol −1 ), broad molecular weight distribution (

{\bar{M}}_{w}

{\bar{M}}_{n}

= 2–10), and significant loss of double bonds (double bonds content < 70%) were invariably obtained .…”

Section: Introductionmentioning

confidence: 99%

A New Insight into the Mechanism of 1,3‐Dienes Cationic Polymerization I: Polymerization of 1,3‐Pentadiene with ^tBuCl/TiCl₄ Initiating System: Kinetic and Mechanistic Study

Розенцвет

Козлов

Korovina

et al. 2013

Macro Chemistry & Physics

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The cationic polymerization of 1,3-pentadiene using a tert -butyl chloride ( t BuCl)/TiCl 4 initiating system in CH 2 Cl 2 at different reaction conditions is reported. It is shown that the reaction rate increases with the increase of the t BuCl/TiCl 4 molar ratio, while the molecular weight distribution becomes narrower. Well-defi ned oligo(1,3-pentadiene)s (M n ≤ 3500 g mol − 1 ; M w /M n ≤ 3.0) are obtained at high t BuCl/TiCl 4 molar ratio (340) and low temperature (-78 °C). 1 H and 13 C NMR spectroscopy studies reveal the presence of tert -butyl head and -CH 2 -Cl end groups. The number-average functionalities ( F n s) at the α -and ω -ends are calculated to be F n ( t Bu) > 1 and F n (Cl) < 1, respectively. The general mechanism of 1,3-pentadiene polymerization is proposed.

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Bio‐inspired cationic polymerization of isoprene and analogues: state‐of‐the‐art

Cited by 40 publications

References 45 publications

The Structure of Cationic Polyisoprene: Branching versus Cyclization

The Structure of Cationic Polyisoprene: Branching versus Cyclization

Carbocationic polymerization of isoprene using cumyl initiators: progress in understanding side reactions

A New Insight into the Mechanism of 1,3‐Dienes Cationic Polymerization I: Polymerization of 1,3‐Pentadiene with ^tBuCl/TiCl₄ Initiating System: Kinetic and Mechanistic Study

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Bio‐inspired cationic polymerization of isoprene and analogues: state‐of‐the‐art

Cited by 40 publications

References 45 publications

The Structure of Cationic Polyisoprene: Branching versus Cyclization

The Structure of Cationic Polyisoprene: Branching versus Cyclization

Carbocationic polymerization of isoprene using cumyl initiators: progress in understanding side reactions

A New Insight into the Mechanism of 1,3‐Dienes Cationic Polymerization I: Polymerization of 1,3‐Pentadiene with tBuCl/TiCl4 Initiating System: Kinetic and Mechanistic Study

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A New Insight into the Mechanism of 1,3‐Dienes Cationic Polymerization I: Polymerization of 1,3‐Pentadiene with ^tBuCl/TiCl₄ Initiating System: Kinetic and Mechanistic Study