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3D printed ultra-fast photothermal responsive shape memory hydrogel for microrobots
文献摘要:
Hydrogels with stimuli-responsive capabilities are gaining more and more attention nowadays with prospective applications in biomedical engineering,bioelectronics,microrobot,etc.We develop a photothermal responsive hydrogel based on N-isopropylacrylamide that achieved a fast and reversible deformation manipulated only by near-infrared(NIR)light.The hydrogel was fabricated by the projection micro stereolithography based 3D printing technique,which can rapidly prototype complex 3D structures.Furthermore,with the variation of the grayscale while manufacturing the hydrogel,the deformation of the hydrogel structure can be freely tuned within a few seconds by losing and absorbing water through adjusting the intensity and the irradiation direction of the NIR light,showing a potential application in ultra-fast object grabbing and transportation.The present study provides a new method for designing ultrafast photothermal responsive hydrogel based microrobot working in water.
文献关键词:
中图分类号:
[1] 医药、卫生(R) / 临床医学(R4) / 诊断学(R44) / 影像诊断学(R445) / 核磁共振成像(R445.2)
[2] 自动化技术、计算机技术(TP) / 计算技术、计算机技术(TP3) / 计算机的应用(TP39) / 信息处理(信息加工)(TP391)
[3] 医药、卫生(R) / 基础医学(R3) / 医用一般科学(R31) / 生物医学工程(R318)
作者姓名:
Ziheng Zhan;Lei Chen;Huigao Duan;Yiqin Chen;Min He;Zhaolong Wang
作者机构:
National Research Center for High-Efficiency Grinding,College of Mechanical and Vehicle Engineering,Hunan University,Changsha 410082,People's Republic of China;College of Electrical and Information Engineering,Hunan University,Changsha 410082,People's Republic of China
文献出处:
极端制造(英文)
引用格式:
[1]Ziheng Zhan;Lei Chen;Huigao Duan;Yiqin Chen;Min He;Zhaolong Wang-.3D printed ultra-fast photothermal responsive shape memory hydrogel for microrobots)[J].极端制造(英文),2022(01):108-118
A类:
microrobots,microrobot
B类:
printed,photothermal,responsive,shape,memory,hydrogel,Hydrogels,stimuli,capabilities,gaining,attention,nowadays,prospective,applications,biomedical,engineering,bioelectronics,etc,We,develop,isopropylacrylamide,that,achieved,reversible,deformation,manipulated,only,by,near,infrared,NIR,light,was,fabricated,projection,stereolithography,printing,technique,which,can,rapidly,prototype,complex,structures,Furthermore,variation,grayscale,while,manufacturing,be,freely,tuned,within,few,seconds,losing,absorbing,water,through,adjusting,intensity,irradiation,direction,showing,potential,object,grabbing,transportation,present,study,provides,new,method,designing,ultrafast,working
AB值:
0.619147
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