阿舒拉粒子：在三维受限空间中创建三元共混聚合物相分离结构的实验与理论方法

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

作者信息

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

机构信息

Device/System Group, WPI-Advanced Institute for Materials Research (AIMR), Tohoku University, 2-1-1, Katahira, Aoba-Ku, Sendai 980-8577, Japan.

Mathematical Science Group, WPI-Advanced Institute for Materials Research (AIMR) and MathAM-OIL, Tohoku University and AIST, 2-1-1, Katahira, Aoba-Ku, Sendai 980-8577, Japan.

出版信息

ACS Omega. 2019 Aug 5;4(8):13106-13113. doi: 10.1021/acsomega.9b00991. eCollection 2019 Aug 20.

DOI:10.1021/acsomega.9b00991

PMID:31460438

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6704431/

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.

摘要

在二元和三元聚合物共混颗粒中发现了独特的形态，包括阿修拉型相分离，其在颗粒表面有三种不同的聚合物组分。根据共混聚合物的表面张力讨论了二元聚合物共混颗粒中相分离结构的形态。通过研究二元聚合物共混颗粒，基于聚合物的组合实现了三元聚合物共混颗粒的结构控制。基于Cahn-Hilliard方程的理论方法给出了与实验结果相同的形态。这项工作为通过控制聚合物颗粒的形态来创建具有复杂纳米结构的聚合物颗粒开辟了道路，正如理论模拟所预测的那样。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ca92/6704431/b4a551c74871/ao-2019-00991v_0006.jpg

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阿舒拉粒子：在三维受限空间中创建三元共混聚合物相分离结构的实验与理论方法

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

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