Surface Structures, Particles, and Fibers of Shape-Memory Polymers at Micro-/Nanoscale

Liangliang Cao; Liwei Wang; Cihui Zhou; Xin Hu; Liang Fang; Yaru Ni; Chunhua Lu; Zhongzi Xu

doi:10.1155/2020/7639724

Surface Structures, Particles, and Fibers of Shape-Memory Polymers at Micro-/Nanoscale

Liangliang Cao, Liwei Wang, Cihui Zhou, Xin Hu, Liang Fang, Yaru Ni, Chunhua Lu, Zhongzi Xu

College of Materials Science and Engineering

Research output: Contribution to journal › Review article › peer-review

13 Scopus citations

Abstract

Shape-memory polymers (SMPs) are one kind of smart polymers and can change their shapes in a predefined manner under stimuli. Shape-memory effect (SME) is not a unique ability for specific polymeric materials but results from the combination of a tailored shape-memory creation procedure (SMCP) and suitable molecular architecture that consists of netpoints and switching domains. In the last decade, the trend toward the exploration of SMPs to recover structures at micro-/nanoscale occurs with the development of SMPs. Here, the progress of the exploration in micro-/nanoscale structures, particles, and fibers of SMPs is reviewed. The preparation method, SMCP, characterization of SME, and applications of surface structures, free-standing particles, and fibers of SMPs at micro-/nanoscale are summarized.

Original language	English
Article number	7639724
Journal	Advances in Polymer Technology
Volume	2020
DOIs	https://doi.org/10.1155/2020/7639724
State	Published - 2020

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title = "Surface Structures, Particles, and Fibers of Shape-Memory Polymers at Micro-/Nanoscale",

abstract = "Shape-memory polymers (SMPs) are one kind of smart polymers and can change their shapes in a predefined manner under stimuli. Shape-memory effect (SME) is not a unique ability for specific polymeric materials but results from the combination of a tailored shape-memory creation procedure (SMCP) and suitable molecular architecture that consists of netpoints and switching domains. In the last decade, the trend toward the exploration of SMPs to recover structures at micro-/nanoscale occurs with the development of SMPs. Here, the progress of the exploration in micro-/nanoscale structures, particles, and fibers of SMPs is reviewed. The preparation method, SMCP, characterization of SME, and applications of surface structures, free-standing particles, and fibers of SMPs at micro-/nanoscale are summarized.",

author = "Liangliang Cao and Liwei Wang and Cihui Zhou and Xin Hu and Liang Fang and Yaru Ni and Chunhua Lu and Zhongzi Xu",

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T1 - Surface Structures, Particles, and Fibers of Shape-Memory Polymers at Micro-/Nanoscale

AU - Cao, Liangliang

AU - Wang, Liwei

AU - Zhou, Cihui

AU - Hu, Xin

AU - Fang, Liang

AU - Ni, Yaru

AU - Lu, Chunhua

AU - Xu, Zhongzi

PY - 2020

Y1 - 2020

N2 - Shape-memory polymers (SMPs) are one kind of smart polymers and can change their shapes in a predefined manner under stimuli. Shape-memory effect (SME) is not a unique ability for specific polymeric materials but results from the combination of a tailored shape-memory creation procedure (SMCP) and suitable molecular architecture that consists of netpoints and switching domains. In the last decade, the trend toward the exploration of SMPs to recover structures at micro-/nanoscale occurs with the development of SMPs. Here, the progress of the exploration in micro-/nanoscale structures, particles, and fibers of SMPs is reviewed. The preparation method, SMCP, characterization of SME, and applications of surface structures, free-standing particles, and fibers of SMPs at micro-/nanoscale are summarized.

AB - Shape-memory polymers (SMPs) are one kind of smart polymers and can change their shapes in a predefined manner under stimuli. Shape-memory effect (SME) is not a unique ability for specific polymeric materials but results from the combination of a tailored shape-memory creation procedure (SMCP) and suitable molecular architecture that consists of netpoints and switching domains. In the last decade, the trend toward the exploration of SMPs to recover structures at micro-/nanoscale occurs with the development of SMPs. Here, the progress of the exploration in micro-/nanoscale structures, particles, and fibers of SMPs is reviewed. The preparation method, SMCP, characterization of SME, and applications of surface structures, free-standing particles, and fibers of SMPs at micro-/nanoscale are summarized.

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M3 - 文献综述

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JO - Advances in Polymer Technology

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Surface Structures, Particles, and Fibers of Shape-Memory Polymers at Micro-/Nanoscale

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