Asymmetric Polymerization of N-ortho- or para-Substituted Phenylmaleimide Using Chiral Anionic Initiators

Oishi, Tsutomu; Isobe, Yukio; Onimura, Kenjiro; Tsutsumi, Hiromori

doi:10.1295/polymj.35.245

Cited by 25 publications

(10 citation statements)

References 23 publications

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“…[1][2][3] At the same time, various kinds of PhMI derivatives have also been synthesized and polymerized. [4][5][6][7][8][9][10][11][12] When alkyl substituents were introduced in the N-phenyl group, the polymers were soluble in non-polar solvents and showed an excellent thermal decomposition property, while poly(1) was soluble in limited kinds of polar solvents. 13,14 On the other hand, the introduction of polar substituents resulted in the formation of polymers with poor solubility.…”

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confidence: 99%

Thermal Properties of N-Phenylmaleimide-Isobutene Alternating Copolymers Containing Polar Groups to Form Intermolecular and Intramolecular Hydrogen Bonding

Omayu

Matsumoto

2008

Polym J

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We have demonstrated that the alternating copolymers obtained from N-phenylmaleimides having hydroxy and carboxy substituents and isobutene show excellent thermal stabilities; namely, onset temperatures of decomposition higher than 350 C and glass transition temperatures higher than 220 C, depending on the structure and position of the polar groups in the N-phenyl group. The obtained copolymers were soluble in organic solvents, such as dimethyl sulfoxide, dimethylformamide, tetrahydrofuran, and acetone, and transparent and brittle films were obtained by casting from their acetone solutions. The role of intermolecular hydrogen bonding for an increase in the glass transition temperature by the introduction of the polar groups was investigated by temperature-controlled IR spectroscopy. The formation of intramolecular hydrogen bonding for the N-2-hydroxyphenyl derivative was also revealed. The molecular conformations were discussed on the basis of the results of DFT calculations for the model compounds of the repeating unit in the copolymers. Recently, new thermo-resistant polymers with a high transparency attract a great interest as key materials for optoelectronic applications. The radical polymerization and copolymerization of N-phenylmaleimide (PhMI, 1) and the thermal properties of the resulting polymers have been extensively studied in order to obtain thermally stable vinyl polymers.1-3 At the same time, various kinds of PhMI derivatives have also been synthesized and polymerized. [4][5][6][7][8][9][10][11][12] When alkyl substituents were introduced in the N-phenyl group, the polymers were soluble in non-polar solvents and showed an excellent thermal decomposition property, while poly(1) was soluble in limited kinds of polar solvents. 13,14 On the other hand, the introduction of polar substituents resulted in the formation of polymers with poor solubility. For example, thermally stable polymers were synthesized by the polymerization of N-(hydroxyphenyl)-, N-(carboxyphenyl)-, and N-(trifluoromethylphenyl)maleimides, but they were insoluble or had a very limited solubility in solvents. 4,[15][16][17] In 1996, Doi and coworkers reported that the alternating copolymerization of N-alkylmaleimides (RMI) with isobutene (IB) [poly(RMI-alt-IB)] produces high molecular weight copolymers with excellent thermal properties, as well as excellent mechanical and optical properties.18-21 Poly(RMI-alt-IB)s are soluble in a larger number of organic solvents and had a moderate softening temperature. The processing of poly-(RMI-alt-IB)s can be easily carried out for the fabrication of polymer films, sheets, and molded products. Recently, we synthesized the alternating copolymers of RMIs containing a functional group, such as hydroxy and carboxy groups, combined with IB, and revealed the role of the intermolecular hydrogen bond of the functional groups in the thermal properties of the obtained copolymers. 22 We demonstrated that poly(RMI-alt-IB)s containing hydroxy and carboxy groups showed high glass transition temperature (T g )...

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confidence: 99%

Thermal Properties of N-Phenylmaleimide-Isobutene Alternating Copolymers Containing Polar Groups to Form Intermolecular and Intramolecular Hydrogen Bonding

Omayu

Matsumoto

2008

Polym J

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“…However, the obtained polymers exhibited only a little optical activity ([a] 435 ¼ À7.4 to À2.9 ), indicating that the directly coupled bisoxazolines cannot build a better asymmetric field at the growing polymer end. The absolute values of specific rotations of the poly(RMI) obtained with Et 2 Zn-Bnbox were higher than those of polymers obtained with Et 2 Zn-Sp [31][32][33][34]. In that report, CHMI, PhMI, and TBMI were polymerized using n-BuLi-four-types-methylene-bridged-bisoxazoline-derivative complexes ( Figure 12 However, specific rotations of poly(PhMI), which possesses an aromatic group as the N-substituent, were much smaller ([a] 435 ¼ À18.3 to þ 8.7 ) than those of poly (CHMI) and poly(TBMI), and they employed diethyl zinc (Et 2 Zn) instead of n-BuLi as an organometal.…”

Section: Asymmetric Polymerizations Of Achiral N-substituted Maleimidesmentioning

confidence: 76%

Asymmetric Polymerizations ofN‐Substituted Maleimides

Onimura

Oishi

2011

Polymeric Chiral Catalyst Design and Chiral Polymer Synthesis

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“…Asymmetric polymerization of achiral N-substituted maleimide also has been investigated [93]. Asymmetric polymerization of achiral N-substituted maleimide also has been investigated [93].…”

Section: Synthesis Of Optically Active Polymersmentioning

confidence: 99%

An Overview of Polymer‐Immobilized Chiral Catalysts and Synthetic Chiral Polymers

Itsuno

2011

Polymeric Chiral Catalyst Design and Chiral Polymer Synthesis

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Asymmetric Polymerization of N-ortho- or para-Substituted Phenylmaleimide Using Chiral Anionic Initiators

Cited by 25 publications

References 23 publications

Thermal Properties of N-Phenylmaleimide-Isobutene Alternating Copolymers Containing Polar Groups to Form Intermolecular and Intramolecular Hydrogen Bonding

Thermal Properties of N-Phenylmaleimide-Isobutene Alternating Copolymers Containing Polar Groups to Form Intermolecular and Intramolecular Hydrogen Bonding

Asymmetric Polymerizations ofN‐Substituted Maleimides

An Overview of Polymer‐Immobilized Chiral Catalysts and Synthetic Chiral Polymers

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