A high gauge-factor wearable strain sensor array via 3D printed mold fabrication and size optimization of silver-coated carbon nanotubes

Pei Zhen; Zhang Qiang; Liu Yan; Zhao Yajing; Dong Xiushan; Zhang Youfu; Zhang Wendong; Sang Shengbo

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A high gauge-factor wearable strain sensor array via 3D printed mold fabrication and size optimization of silver-coated carbon nanotubes

机译：高压因子可穿戴应变传感器阵列，通过3D印刷模具制造和尺寸优化银涂层碳纳米管

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The development of 3D print technology provided an opportunity to achieve fast and accurate fabrication of wearable sensor arrays. In this paper, high-sensitivity flexible and stretchable silver-coated carbon nanotube (Ag@CNT) wearable strain sensor arrays are fabricated using 3D printing technology and composite nanomaterial synthesis. Ag@CNTs with uniform and compact particles were synthesized with different sizes of carbon nanotubes (CNTs) using a reduction method. Strain sensor arrays were fabricated accurately and efficiently with the aid of 3D printed molds. Sensors with different Ag@CNTs were then compared comprehensively, and it was found that the Ag@CNT (short) sensor, which had a gauge factor (GF) of 62.8 in the 0% to 14.44% stretch range and a GF of 831.3 in the 14.44% to 21.11% stretch range, can significantly enhance the detection of small movements. These wearable strain sensor arrays were utilized in the application of traditional Chinese medicine pulse diagnosis and gesture recognition.

机译：3D打印技术的开发提供了实现可穿戴传感器阵列的快速准确制造的机会。本文采用3D印刷技术和复合纳米材料合成制造了高灵敏度柔性且可伸展的银涂层碳纳米管（AG @ CNT）可穿戴菌株传感器阵列。具有均匀和紧凑颗粒的Ag @ CNT用不同尺寸的碳纳米管（CNT）合成，使用还原方法合成。借助于3D印刷模具精确且有效地制造应变传感器阵列。然后全面比较具有不同的AG @ CNT的传感器，发现AG @ CNT（短）传感器，其仪表系数（GF）为62.8，在0％至14.44％的拉伸范围和831.3的GF中伸展范围14.44％至21.11％，可以显着增强小运动的检测。这些可穿戴应变传感器阵列用于应用中医脉冲诊断和手势识别。

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来源
《Nanotechnology》 |2020年第30期|共7页
作者
Pei Zhen; Zhang Qiang; Liu Yan; Zhao Yajing; Dong Xiushan; Zhang Youfu; Zhang Wendong; Sang Shengbo;
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作者单位

Taiyuan Univ Technol MicroNano Syst Res Ctr Key Lab Adv Transducers &

Intelligent Control Sys Coll Informat &

Comp Minist Educ &

Shanxi Prov Taiyuan 030024 Peoples R China;

Taiyuan Univ Technol MicroNano Syst Res Ctr Key Lab Adv Transducers &

Intelligent Control Sys Coll Informat &

Comp Minist Educ &

Shanxi Prov Taiyuan 030024 Peoples R China;

Taiyuan Univ Technol MicroNano Syst Res Ctr Key Lab Adv Transducers &

Intelligent Control Sys Coll Informat &

Comp Minist Educ &

Shanxi Prov Taiyuan 030024 Peoples R China;

Taiyuan Univ Technol MicroNano Syst Res Ctr Key Lab Adv Transducers &

Intelligent Control Sys Coll Informat &

Comp Minist Educ &

Shanxi Prov Taiyuan 030024 Peoples R China;

Shanxi Acad Med Sci Gen Surg Shanxi Bethune Hosp Taiyuan 030032 Peoples R China;

Shanxi Prov Hosp Tradit Chinese Med Dept Surg Taiyuan 030001 Peoples R China;

Taiyuan Univ Technol MicroNano Syst Res Ctr Key Lab Adv Transducers &

Intelligent Control Sys Coll Informat &

Comp Minist Educ &

Shanxi Prov Taiyuan 030024 Peoples R China;

Taiyuan Univ Technol MicroNano Syst Res Ctr Key Lab Adv Transducers &

Intelligent Control Sys Coll Informat &

Comp Minist Educ &

Shanxi Prov Taiyuan 030024 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类特种结构材料;
关键词
flexible strain sensor array; 3D printing; Ag@CNT nanomaterial; pulse diagnosis; gesture recognition;

机译：柔性应变传感器阵列;3D打印;AG @ CNT纳米材料;脉冲诊断;手势识别;

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专利

1. A high gauge-factor wearable strain sensor array via 3D printed mold fabrication and size optimization of silver-coated carbon nanotubes [J] . Pei Zhen, Zhang Qiang, Liu Yan, Nanotechnology . 2020,第30期

机译：高压因子可穿戴应变传感器阵列，通过3D印刷模具制造和尺寸优化银涂层碳纳米管
2. Enhanced performance of 3D printed highly elastic strain sensors of carbon nanotube/thermoplastic polyurethane nanocomposites via non-covalent interactions [J] . Xiang Dong, Zhang Xuezhong, Li Yuntao, Composites . 2019,第Nova1期

机译：通过非共价相互作用增强碳纳米管/热塑性聚氨酯纳米复合材料的3D打印高弹性应变传感器的性能
3. 3D printed highly elastic strain sensors of multiwalled carbon nanotube/thermoplastic polyurethane nanocomposites [J] . Christ Josef F., Aliheidari Nahal, Ameli Amir, Materials & design . 2017,第octa期

机译：多壁碳纳米管/热塑性聚氨酯纳米复合材料的3D打印高弹性应变传感器
4. Fabrication of a tactile sensor array with fiber Bragg gratings using a 3D printed mold [C] . Marcelo A. Pedroso, Lucas H. Negri, Marcos A. Kamizi, SBMO/IEEE MTT-S International Microwave and Optoelectronics Conference . 2017

机译：使用3D打印模具制造带有光纤布拉格光栅的触觉传感器阵列
5. Wearable Carbon Nanotube Sensors: Fabrication and Applications for Bio/Chemical Sensors [D] . Kahng, Seong-Joong. 2019

机译：可穿戴碳纳米管传感器：Bio /化学传感器的制造和应用
6. Wrinkle Structured Network of Silver-Coated Carbon Nanotubes for Wearable Sensors [O] . Zhongyun Yuan, Zhen Pei, Muhammad Shahbaz, 2019

机译：可穿戴传感器的镀银碳纳米管的皱纹结构网络
7. High-temperature softening of nickel-based carbon nanotube composite coatings for the fabrication of nickel-based nanoimprint molds by thermal imprinting [O] . Tsunehisa SUZUKI, Mutsuto KATO, Takeshi MATSUDA, 2014

机译：基于镍的碳纳米管复合涂层的高温软化，通过热印迹制造镍基纳米压印模具

A high gauge-factor wearable strain sensor array via 3D printed mold fabrication and size optimization of silver-coated carbon nanotubes

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