Anionic Polymerization of 2‐Hexyl[3]dendralene

Takamura, Yuki; Takenaka, Katsuhiko; Toda, Tomoyuki; Takeshita, Hiroki; Miya, Masamitsu; Shiomi, Tomoo

doi:10.1002/macp.201700046

Cited by 11 publications

(5 citation statements)

References 17 publications

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“…We presume that the nucleophilic addition of n -BuLi to either terminus of a 1,3-butadiene moiety of 1a generates the pentadienyl-lithium 7a or the phenylpropenyl-lithium 7b , which undergoes the nucleophilic substitution of bromobutane. Organolithium-initiated 1,4-addition polymerizations of dienes and dendralenes are known, but to our knowledge, 1,4-addition/substitution is without precedent for unsaturated hydrocarbons . Attempts to generalize this three-component, two C–C bond-forming process are underway.…”

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confidence: 99%

Diene-Transmissive Diels–Alder Sequences with Benzynes

2019

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Diene-transmissive Diels–Alder (DTDA) sequences are extraordinarily powerful processes for the generation of fused bicyclic systems. Nonetheless, only stable dienophiles have previously been deployed. Herein we report DTDA sequences with a variety of substituted [3]dendralenes in the first study to deploy arynes as dienophiles. We demonstrate the one-flask generation of complex, aromatic-ring-containing, multicyclic systems of relevance to medicinal chemistry. These synthetic operations provide numerous successful examples of the otherwise challenging and rarely reported intermolecular Diels–Alder reaction of acyclic 1,3-butadienes with arynes, which is made possible due to the exalted reactivity of dendralenic dienes.

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confidence: 99%

Diene-Transmissive Diels–Alder Sequences with Benzynes

2019

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“…Many synthetic groups were focused on discovering and studying new vinyl monomers compatible with anionic polymerization, leading to the synthesis of novel materials with exciting properties. − Ishizone’s − and Ma’s , groups, reported the synthesis of several novel styrene and 1,3-diene derivatives bearing various substituents. For example, the anionic polymerization of styrene derivatives with bulky adamantyl groups generated well-defined polymers exhibiting higher T g values (>200 °C) than PS .…”

Section: Current Status Of Living Carbanionic Polymerizationmentioning

confidence: 99%

Quo Vadis Carbanionic Polymerization?

et al. 2022

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Living anionic polymerization will soon celebrate 70 years of existence. This living polymerization is considered the mother of all living and controlled/living polymerizations since it paved the way for their discovery. It provides methodologies for synthesizing polymers with absolute control of the essential parameters that affect polymer properties, including molecular weight, molecular weight distribution, composition and microstructure, chain-end/in-chain functionality, and architecture. This precise control of living anionic polymerization generated tremendous fundamental and industrial research activities, developing numerous important commodity and specialty polymers. In this Perspective, we present the high importance of living anionic polymerization of vinyl monomers by providing some examples of its significant achievements, presenting its current status, giving several insights into where it is going (Quo Vadis) and what the future holds for this powerful synthetic method. Furthermore, we attempt to explore its advantages and disadvantages compared to controlled/living radical polymerizations, the main competitors of living carbanionic polymerization.

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“…Since all dienyl structures can potentially undergo polymerization similar to 1,3-butadiene, a variety of microstructures can be formed in the resulting polymer. Earlier, we reported the successful polymerization of several 2-substituted [3]dendralene derivatives (Figure c–e) to afford well-defined linear polymers with predictable molecular weights and narrow molecular-weight distributions using anionic initiators such as potassium naphthalenide (K-Naph) and sec -butyllithium ( s -BuLi). , In the case of poly(P3D), two conjugate addition structures (1,4 and 4,6 structures) were observed, and their ratio was constant regardless of the polymerization conditions, while the vinyl addition structure was not detected. This indicated that the [3]dendralene derivatives underwent conjugate addition during anionic polymerization and that the polymerizabilities of the two conjugated systems contained in P3D are similar to those in anionic polymerization.…”

Section: Introductionmentioning

confidence: 98%

Stable and Highly Regioselective Anionic Polymerization of (Z)-1-Phenyl[3]dendralene

et al. 2021

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The anionic polymerization of (Z)-1-phenyl[3]dendralene (1Z-P3D) in THF with potassium naphthalenide (K-Naph) as an initiator was investigated. At −78 °C, a polymer of predictable molecular weight and narrow molecular-weight distribution (M w/M n = 1.26) was obtained quantitively in 24 h. The active chain-end carbanion derived from 1Z-P3D was significantly stabilized by conjugation with a phenyl substituent at the C1 position of the monomer; side reactions such as nucleophilic addition to the double bond in other polymer main chains were not observed over a wide temperature range (−78–0 °C). The microstructure of the obtained poly(1Z-P3D) contained a predominant amount of the 1,4 structure (>90%). Thus, the polymerizability of 1Z-P3D was different from that of previously reported 2-phenyl[3]dendralene (P3D), in terms of the nucleophilicity of the active chain end and regioselectivity in the propagation reaction.

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Anionic Polymerization of 2‐Hexyl[3]dendralene

Cited by 11 publications

References 17 publications

Diene-Transmissive Diels–Alder Sequences with Benzynes

Diene-Transmissive Diels–Alder Sequences with Benzynes

Quo Vadis Carbanionic Polymerization?

Stable and Highly Regioselective Anionic Polymerization of (Z)-1-Phenyl[3]dendralene

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