Yuta Makita scite author profile

Inter-and intramolecular chemical reactions and their kinetics for 13 C-labeled atactic-polyacrylonitrile (aPAN) powder heat-treated at 220−290 °C under air and vacuum were investigated by various solid-state nuclear magnetic resonance (ssNMR) techniques. By applying 13 C direct polarization magic angle spinning (DPMAS) as well as through-bond and throughspace double quantum/single quantum ssNMR techniques, it was concluded that aPAN heat-treated under air at 290 °C for 300 min adopted the ladder formation, namely, conjugated six-membered aromatic rings with partially cross-linked and oxidized rings and polyene components. In contrast, aPAN heat-treated under vacuum at the same condition thermally decomposed into oligomeric chains that were mainly composed of isolated aromatic rings connected by alkyl segments. Furthermore, early stages of the chemical reactions were investigated by 13 C cross-polarization (CP) and DPMAS spectra. The latter provided quantitative information regarding the kinetics of the chemical reactions. As a result, it was shown that chemical reactions under oxygen occurred homogeneously with a higher activation energy (E a ) of 122 ± 3 kJ/mol compared to that of vacuum at 47 ± 2 kJ/mol. By comparing both chemical structures and kinetics under two different conditions, the chemical reaction mechanisms of aPAN will be discussed in detail.

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Characterization of the Slow Molecular Dynamics of Poly(l‐Lactic Acid) in α and α′ Phases, in a Glassy State, and in a Complex with Poly(d‐Lactic Acid) by Solid‐State NMR

Chen

Zhou

Makita

et al. 2018

Macro Chemistry & Physics

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Recently, slow molecular dynamics of poly(l‐lactic acid) (PLLA) by using 1D and 2D exchange NMR are investigated. In this work, slow molecular dynamics of PLLA chains in the α′, a stereocomplex (SC) with poly(d‐lactic acid), and glassy states are investigated in terms of centerband‐only detection of exchange (CODEX) NMR. The mixing‐time dependence of the CODEX data demonstrates that the molecular dynamics of stems become slower in the order of α′, α, and SC. The temperature dependence of the correlation time 〈τc〉 of the helical jump motions in the α and SC phases simply exhibits Arrhenius behaviors, with activation energy, Ea, values of 91 ± 1 and 97 ± 1 kJ mol−1, respectively. In contrast, the temperature dependence of 〈τc〉 in the α′ sample exhibits two Arrhenius lines with substantially different Ea values of 273 ± 12 and 16 ± 14 kJ mol−1 at temperatures below and above 84 °C. The obtained kinetics of molecular dynamics not only establish the relationship between packing structure and dynamics in PLLA polymorphs and in the SC, but also allow for an understanding of the coupled dynamics between the crystalline and amorphous regions at approximately Tg.

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Effects of Rigid Amorphous Fraction and Lamellar Crystal Orientation on Electrical Insulation of Poly(ethylene terephthalate) Films

Makita

Zhang

et al. 2020

Macromolecules

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In response to the stringent requirements for future DC-link capacitors in electric vehicles (EVs), it is desirable to develop dielectric polymer films with high-temperature tolerance (at least 105 °C) and low loss (dissipation factor, tan δ < 0.003). Although the biaxially oriented poly(ethylene terephthalate) (BOPET) film has an alleged temperature rating of 120 °C, its dielectric performance in terms of breakdown strength and lifetime cannot satisfy the stringent requirements for power electronics in EVs. In this work, we carried out a structure−electrical insulation property relationship study to understand the working mechanism for various PET films, including a commercial BOPET film, an amorphous PET (AmPET) film, and two annealed PET films (AnPET, i.e., cold-crystallized from AmPET). Structural analyses revealed a uniform edge-on crystalline orientation in BOPET with the a* axis in the film normal direction. Meanwhile, a high content of the rigid amorphous fraction (RAF) was identified for BOPET, which resulted from biaxial stretching during processing. On the contrary, AnPET films had a random crystal orientation with lower RAF contents. From dielectric breakdown and lifetime studies, the high-crystallinity AnPET film exhibited better electrical insulation than BOPET, and AmPET had the worst electrical insulation. Electrical conductivity results revealed that the high RAF content in BOPET led to reasonably high breakdown strength and long lifetime only at low temperatures (<100 °C). Meanwhile, PET crystals were more insulating than the amorphous phase, whether mobile, rigid, or glassy. In particular, the flat-on lamellae in the AnPET film were more effective than the edge-on lamellae in BOPET in blocking the conduction of charge carriers (electrons and impurity ions). This understanding will help us design high-temperature semicrystalline polymer films for DC-link capacitors in EVs.

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Roles of Conformational Flexibility in the Crystallization of Stereoirregular Polymers

et al. 2021

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Stereoregularity significantly influences the crystallization, mechanical, and thermal properties of polymers. In this work, we investigate crystallization behaviors and molecular dynamics of atactic (a)-, isotactic (i)-, and syndiotactic (s)hydrogenated poly(norbornene) (hPNB)s by using small-angle X-ray scattering and solid-state (ss) NMR. a-hPNB exhibits a much higher crystallinity (Φ c ) (82%) and long period (L) (80 nm) than i-and s-hPNB (50−55% and 17−21 nm). Moreover, in the s-hPNB crystalline region, chain dynamics is not thermally activated up to the melting temperature (T m ), while in the crystalline regions of i-and a-hPNB, small amplitude motions occur in a slow dynamic regime of 10 −2 −10 2 s. The molecular dynamics follows Arrhenius behavior in a-hPNB up to the crystal−crystal transition temperature (T cc ), while these dynamics are surprisingly saturated in i-hPNB under these conditions. Temperature dependence of the molecular dynamics leads to different crystal−crystal transitions between i-and a-hPNBs: i-hPNB changes the trans conformation to the gauche one due to the localized bond rotations where chain dynamics is restricted, whereas a-hPNB keeps a nearly trans conformation and conducts fast chain dynamics due to the amplified C−C bond rotations in the high-temperature phase. Such fast chain dynamics leads to unique crystallization behaviors of hPNB, specifically in the atactic configuration due to configurational disorder coupled with conformational flexibility.

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Yuta Makita

Effect of film thickness on the electrical properties of polyimide thin films

Chemical Reactions and Their Kinetics of atactic-Polyacrylonitrile As Revealed by Solid-State ¹³C NMR

Characterization of the Slow Molecular Dynamics of Poly(l‐Lactic Acid) in α and α′ Phases, in a Glassy State, and in a Complex with Poly(d‐Lactic Acid) by Solid‐State NMR

Effects of Rigid Amorphous Fraction and Lamellar Crystal Orientation on Electrical Insulation of Poly(ethylene terephthalate) Films

Roles of Conformational Flexibility in the Crystallization of Stereoirregular Polymers

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Yuta Makita

Effect of film thickness on the electrical properties of polyimide thin films

Chemical Reactions and Their Kinetics of atactic-Polyacrylonitrile As Revealed by Solid-State 13C NMR

Characterization of the Slow Molecular Dynamics of Poly(l‐Lactic Acid) in α and α′ Phases, in a Glassy State, and in a Complex with Poly(d‐Lactic Acid) by Solid‐State NMR

Effects of Rigid Amorphous Fraction and Lamellar Crystal Orientation on Electrical Insulation of Poly(ethylene terephthalate) Films

Roles of Conformational Flexibility in the Crystallization of Stereoirregular Polymers

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Product

Resources

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Chemical Reactions and Their Kinetics of atactic-Polyacrylonitrile As Revealed by Solid-State ¹³C NMR