Research Progress and Emerging Directions in Stimulus Electro-Responsive Polymer Materials

Zifeng Jin; Xiaoyan Wei; Xiaojun He; Zhenglin Wang; Zhibo Zhao; Huan He; Ya’nan Yang; Nan Chen

doi:10.3390/ma17174204

Research Progress and Emerging Directions in Stimulus Electro-Responsive Polymer Materials

Zifeng Jin, Xiaoyan Wei, Xiaojun He, Zhenglin Wang, Zhibo Zhao^*, Huan He^*, Ya’nan Yang, Nan Chen^*

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

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

Abstract

Stimulus electro-responsive polymer materials can reversibly change their physical or chemical properties under various external stimuli such as temperature, light, force, humidity, pH, and magnetic fields. This review introduces typical conventional stimulus electro-responsive polymer materials and extensively explores novel directions in the field, including multi-stimuli electro-responsive polymer materials and humidity electro-responsive polymer materials pioneered by our research group. Despite significant advancements in stimulus electro-responsive polymer materials, ongoing research focuses on enhancing their efficiency, lifespan, and production costs. Interdisciplinary collaboration and advanced technologies promise to broaden the application scope of these materials, particularly in medical and environmental protection fields, ultimately benefiting society.

Original language	English
Article number	4204
Journal	Materials
Volume	17
Issue number	17
DOIs	https://doi.org/10.3390/ma17174204
Publication status	Published - Sept 2024

Keywords

moisture electric generator
polymer
stimuli-responsive materials
stimulus electro-responsive

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10.3390/ma17174204

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Jin, Z., Wei, X., He, X., Wang, Z., Zhao, Z., He, H., Yang, Y., & Chen, N. (2024). Research Progress and Emerging Directions in Stimulus Electro-Responsive Polymer Materials. Materials, 17(17), Article 4204. https://doi.org/10.3390/ma17174204

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title = "Research Progress and Emerging Directions in Stimulus Electro-Responsive Polymer Materials",

abstract = "Stimulus electro-responsive polymer materials can reversibly change their physical or chemical properties under various external stimuli such as temperature, light, force, humidity, pH, and magnetic fields. This review introduces typical conventional stimulus electro-responsive polymer materials and extensively explores novel directions in the field, including multi-stimuli electro-responsive polymer materials and humidity electro-responsive polymer materials pioneered by our research group. Despite significant advancements in stimulus electro-responsive polymer materials, ongoing research focuses on enhancing their efficiency, lifespan, and production costs. Interdisciplinary collaboration and advanced technologies promise to broaden the application scope of these materials, particularly in medical and environmental protection fields, ultimately benefiting society.",

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author = "Zifeng Jin and Xiaoyan Wei and Xiaojun He and Zhenglin Wang and Zhibo Zhao and Huan He and Ya{\textquoteright}nan Yang and Nan Chen",

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doi = "10.3390/ma17174204",

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AU - Jin, Zifeng

AU - Wei, Xiaoyan

AU - He, Xiaojun

AU - Wang, Zhenglin

AU - Zhao, Zhibo

AU - He, Huan

AU - Yang, Ya’nan

AU - Chen, Nan

PY - 2024/9

Y1 - 2024/9

N2 - Stimulus electro-responsive polymer materials can reversibly change their physical or chemical properties under various external stimuli such as temperature, light, force, humidity, pH, and magnetic fields. This review introduces typical conventional stimulus electro-responsive polymer materials and extensively explores novel directions in the field, including multi-stimuli electro-responsive polymer materials and humidity electro-responsive polymer materials pioneered by our research group. Despite significant advancements in stimulus electro-responsive polymer materials, ongoing research focuses on enhancing their efficiency, lifespan, and production costs. Interdisciplinary collaboration and advanced technologies promise to broaden the application scope of these materials, particularly in medical and environmental protection fields, ultimately benefiting society.

AB - Stimulus electro-responsive polymer materials can reversibly change their physical or chemical properties under various external stimuli such as temperature, light, force, humidity, pH, and magnetic fields. This review introduces typical conventional stimulus electro-responsive polymer materials and extensively explores novel directions in the field, including multi-stimuli electro-responsive polymer materials and humidity electro-responsive polymer materials pioneered by our research group. Despite significant advancements in stimulus electro-responsive polymer materials, ongoing research focuses on enhancing their efficiency, lifespan, and production costs. Interdisciplinary collaboration and advanced technologies promise to broaden the application scope of these materials, particularly in medical and environmental protection fields, ultimately benefiting society.

KW - moisture electric generator

KW - polymer

KW - stimuli-responsive materials

KW - stimulus electro-responsive

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DO - 10.3390/ma17174204

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VL - 17

JO - Materials

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Research Progress and Emerging Directions in Stimulus Electro-Responsive Polymer Materials

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