Ashura Particles: Experimental and Theoretical Approaches for Creating Phase-Separated Structures of Ternary Blended Polymers in Three-Dimensionally Confined Spaces

Yutaro Hirai; Edgar Avalos; Takashi Teramoto; Yasumasa Nishiura; Hiroshi Yabu

doi:10.1021/acsomega.9b00991

Ashura Particles: Experimental and Theoretical Approaches for Creating Phase-Separated Structures of Ternary Blended Polymers in Three-Dimensionally Confined Spaces

Yutaro Hirai, Edgar Avalos, Takashi Teramoto, Yasumasa Nishiura, Hiroshi Yabu

Advanced Institute for Materials Research (AIMR)

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Unique morphologies were found in binary and ternary polymer blended particles, including Ashura-type phase separation, which has three different polymer components on the particle surface. The morphologies of phase-separated structures in the binary polymer blended particles are discussed in terms of the surface tensions of the blended polymers. Structural control of ternary polymer blended particles was achieved based on the combination of polymers by examining binary polymer blended particles. A theoretical approach based on the Cahn-Hilliard equations gives identical morphologies with the experimental results. This work opens the way to creating polymer particles with sophisticated nanostructures by controlling their morphologies as predicted by theoretical simulations.

Original language	English
Pages (from-to)	13106-13113
Number of pages	8
Journal	ACS Omega
Volume	4
Issue number	8
DOIs	https://doi.org/10.1021/acsomega.9b00991
Publication status	Published - 2019 Aug 20

ASJC Scopus subject areas

Chemistry(all)
Chemical Engineering(all)

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10.1021/acsomega.9b00991

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title = "Ashura Particles: Experimental and Theoretical Approaches for Creating Phase-Separated Structures of Ternary Blended Polymers in Three-Dimensionally Confined Spaces",

abstract = "Unique morphologies were found in binary and ternary polymer blended particles, including Ashura-type phase separation, which has three different polymer components on the particle surface. The morphologies of phase-separated structures in the binary polymer blended particles are discussed in terms of the surface tensions of the blended polymers. Structural control of ternary polymer blended particles was achieved based on the combination of polymers by examining binary polymer blended particles. A theoretical approach based on the Cahn-Hilliard equations gives identical morphologies with the experimental results. This work opens the way to creating polymer particles with sophisticated nanostructures by controlling their morphologies as predicted by theoretical simulations.",

author = "Yutaro Hirai and Edgar Avalos and Takashi Teramoto and Yasumasa Nishiura and Hiroshi Yabu",

note = "Funding Information: This work was partially supported by KAKENHI Grants-in-Aid (nos. 17H01223, 18H05322 and 18H05482) and JSPS A3 Foresight Program from the Japan Society for the Promotion of Science (JSPS), Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan, and by AMED-SENTAN (no. 16809277). This work was also supported by the Fusion Research and Advanced Target Project of WPI-AIMR, Tohoku University. E.A. and Y.N. gratefully acknowledge the support of the Council for Science, Technology and Innovation (CSTI), Cross-ministerial Strategic Innovation Promotion Program (SIP), “Structural Materials for Innovation”. Publisher Copyright: {\textcopyright} 2019 American Chemical Society.",

year = "2019",

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doi = "10.1021/acsomega.9b00991",

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AU - Hirai, Yutaro

AU - Avalos, Edgar

AU - Teramoto, Takashi

AU - Nishiura, Yasumasa

AU - Yabu, Hiroshi

N1 - Funding Information: This work was partially supported by KAKENHI Grants-in-Aid (nos. 17H01223, 18H05322 and 18H05482) and JSPS A3 Foresight Program from the Japan Society for the Promotion of Science (JSPS), Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan, and by AMED-SENTAN (no. 16809277). This work was also supported by the Fusion Research and Advanced Target Project of WPI-AIMR, Tohoku University. E.A. and Y.N. gratefully acknowledge the support of the Council for Science, Technology and Innovation (CSTI), Cross-ministerial Strategic Innovation Promotion Program (SIP), “Structural Materials for Innovation”. Publisher Copyright: © 2019 American Chemical Society.

PY - 2019/8/20

Y1 - 2019/8/20

N2 - Unique morphologies were found in binary and ternary polymer blended particles, including Ashura-type phase separation, which has three different polymer components on the particle surface. The morphologies of phase-separated structures in the binary polymer blended particles are discussed in terms of the surface tensions of the blended polymers. Structural control of ternary polymer blended particles was achieved based on the combination of polymers by examining binary polymer blended particles. A theoretical approach based on the Cahn-Hilliard equations gives identical morphologies with the experimental results. This work opens the way to creating polymer particles with sophisticated nanostructures by controlling their morphologies as predicted by theoretical simulations.

AB - Unique morphologies were found in binary and ternary polymer blended particles, including Ashura-type phase separation, which has three different polymer components on the particle surface. The morphologies of phase-separated structures in the binary polymer blended particles are discussed in terms of the surface tensions of the blended polymers. Structural control of ternary polymer blended particles was achieved based on the combination of polymers by examining binary polymer blended particles. A theoretical approach based on the Cahn-Hilliard equations gives identical morphologies with the experimental results. This work opens the way to creating polymer particles with sophisticated nanostructures by controlling their morphologies as predicted by theoretical simulations.

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Ashura Particles: Experimental and Theoretical Approaches for Creating Phase-Separated Structures of Ternary Blended Polymers in Three-Dimensionally Confined Spaces

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