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筋田 涼太*; 今井 彩帆里*; 大内 誠*; 青木 裕之; 寺島 崇矢*
Macromolecules, 56(23), p.9738 - 9749, 2023/12
被引用回数:0 パーセンタイル:0(Polymer Science)Constructing ordered ionic nanostructures into bulk polymers and thin films is an important technique to create functional materials, such as polyelectrolytes and proton- and ion-conducting materials, for various applications. Herein, we report microphase separation of cationic homopolymers bearing alkyl ammonium bromides to create sub-4 nm lamellar materials, where an ionic phase is alternatingly layered with a hydrophobic alkyl phase and serves as a channel for water intercalation. We prepared cationic homopolymers with linear or branched alkyl pendants (octyl or 2-ethylhexyl group: C8-eicosyl or 2-octyldodecyl group: C20) via the free radical polymerization of 2-(dimethylamino)ethyl acrylate (DMAEA), followed by the quaternization of the polyDMAEA with corresponding alkyl bromides. The homopolymers carrying linear hexadecyl, octadecyl, and eicosyl groups were crystalline at room temperature, whereas the others were amorphous. The homopolymers bearing linear alkyl pendants longer than the decyl group or branched alkyl pendants larger than the 2-butyloctyl group formed lamellar structures by the self-assembly of the side chains. The domain spacing can be controlled between 2.5 and 3.7 nm by tuning the pendant structures and are smaller than that formed by the corresponding random copolymers. A cationic homopolymer bearing crystalline octadecyl groups maintained lamellar structures up to 
210 
C far beyond the melting temperature (50 C). The cationic homopolymer further formed a multilayered lamellar thin film on a silicon substrate, in which the cationic layers absorbed water under humid conditions and reversibly released the water therefrom in a N
gas atmosphere.
今井 彩帆里*; 荒川 勝利*; 中西 洋平*; 竹中 幹人*; 青木 裕之; 大内 誠*; 寺島 崇矢*
Macromolecules, 55(20), p.9113 - 9125, 2022/10
被引用回数:3 パーセンタイル:24.75(Polymer Science)Microphase separation of copolymers is a key technique to produce polymer bulk materials or thin films with ordered nanostructures for applications in various research fields including nanotechnologies, electronic devices, among many others. Herein, we report water-assisted microphase separation of amphiphilic random copolymers bearing quaternary ammonium cations and hydrophobic alkyl or oleyl groups in the solid state and the thin films. We investigated the effects of sample preparation protocols and the hydrophobic pendants (a butyl group: C4 - octadecyl or oleyl group: C18), composition, and molecular weight of the copolymers on the microphase separation behavior. By annealing under humid conditions, the copolymers bearing alkyl groups longer than an octyl group (C8) formed sub-5 nm lamellar structures comprising cationic layers and hydrophobic layers. Water hardly remained in the resulting lamellar materials under ambient conditions. The domain spacing was controlled between 3.7 and 5.3 nm by tuning the length of the hydrophobic pendants and composition and was independent of the molecular weight and molecular weight distribution. The cationic random copolymers carrying amorphous hydrophobic pendants provided transparent or translucent polymer materials containing small lamellar structures. The random copolymers further formed multilayered lamellar thin films on silicon substrates by spin-coating the copolymer solutions, followed by a humid annealing process. The layered lamellae were directly observed as terrace structures with about 4-5 nm steps by atomic force microscopy.
