Materials Reports 2021, Vol. 35 Issue (Z1): 628-633 |
POLYMERS AND POLYMER MATRIX COMPOSITES |
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Research Progress of Smart Actuator Based on Single Stimulus Response |
ZHENG Qinchao1, JIANG Zhenlin1,2,3, JIN Liang2, XU Xiaotong1, ZHU Min1,3, FAN Xiaobing2
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1 School of Chemistry and Chemical Engineering, Shanghai University of Engineering Science, Shanghai 201620, China 2 Wuxi Solead Technology Co., Ltd, Wuxi 214253, China 3 Research Center for Advanced Micro- Nano-Fabrication Materials, Shanghai University of Engineering Science, Shanghai 201620, China |
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Abstract Smart actuators are a kind of intelligent material devices with unique properties such as self-awareness, autonomous response, and automatic execution capabilities, they can achieve driven behaviors of reversible contraction, bending, rotation or jumping in response to single/multi external stimuli (such as light, heat, magnetism, electricity, humidity, and chemical reactions). It is their capability of dynamically sen-sing and interacting with complex ambient environment that make them have wide application potential in different application fields, such as artificial muscles, smart textiles, smart sensors, and soft robots. In this paper, the latest research progress and application status of smart actuators based on a single stimulus response were reviewed, the drive response media, preparation method and performance of different single stimulus responses were summarized, and the limitations of single stimulus response smart actuators and the future direction of development were analyzed.
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Published: 16 July 2021
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Fund:Young Science and Technology Talent Sailing Project of Shanghai (19YF1417800). |
About author:: Qinchao Zheng is currently pursuing his master's degree at the School of Chemistry and Chemical Enginee-ring, Shanghai University of Engineering Science, under the supervision of Zhenlin Jiang. His research has focused on the preparation of smart actuators that respond to light and heat stimulation.Zhenlin Jiang is a lecturer of Shanghai University of Engineering Science. He obtained his master's degree and doctorate degree from Donghua University in 2013 and 2017, respectively. And has taught at the School of Chemistry and Chemical Engineering of Shanghai University of Engineering Science since 2018. His research direction is the preparation and application of functional polymer materials, and smart wearable devices. He currently presides over 3 vertical scientific research projects such as the Commission of Science and Technology for National Defense, Shanghai Sailing Talents, 5 horizontal scientific research projects, and mainly participated in the 2016 “National Science and Technology Key R&D Program” project and the 2016 Ministry of Industry and Information Technology “Smart Manufactu-ring” new model application project. He won the second prize of Fujian Science and Technology Progress Award in 2018, and the talent of Shanghai “Sailing Plan” in 2019. |
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