Highly sensitive strain sensors based on dispensing technology for human–machine interaction

IF 2.8 4区工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Flexible and Printed Electronics Pub Date : 2023-11-29 DOI:10.1088/2058-8585/ad0ea6

Zhifu Chen, Liangsong Huang, Peng Zhang, Yuxia Li, Xiaofei Bu, Huake Chen, Jiapeng Tan

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引用次数: 0

Abstract

Flexible strain sensors have stable and sensitive sensing performance under deformation conditions such as pressing, bending, and stretching. However, the preparation process of high-performance strain sensors is still very complex, which also limits the application and production of sensors. At the same time, most sensors are unstable and inefficient, so they cannot meet people’s expectations for high sensitivity and stability. In order to solve the above problems, this paper proposes a resistive strain sensor based on dispensing technology, with carbon black and polyurethane mixture as printing ink. Then, a sensor-sensitive layer with a right-angle serpentine structure is printed directly by air pressure extrusion. The sensor can detect changes at 0.1% strain and withstand 2400 tensile cycles while maintaining a sensitivity of 28.07 in the range of 0%–40%. In addition, the sensor can accurately and stably reflect the changes in different joints of the human body. At the same time, the data glove based on the strain sensor shows great application potential in the fields of gesture recognition and human–machine interaction.

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基于点胶技术的高灵敏度应变传感器用于人机交互

柔性应变传感器在挤压、弯曲和拉伸等变形条件下具有稳定而灵敏的传感性能。然而，高性能应变传感器的制备工艺仍然非常复杂，这也限制了传感器的应用和生产。同时，大多数传感器不稳定、效率低，无法满足人们对高灵敏度和高稳定性的期望。为了解决上述问题，本文提出了一种基于点胶技术的电阻应变传感器，以炭黑和聚氨酯混合物为印刷油墨。然后，通过气压挤出法直接印刷出具有直角蛇形结构的传感器敏感层。该传感器可检测到 0.1% 的应变变化，并可承受 2400 次拉伸循环，同时在 0%-40% 的范围内保持 28.07 的灵敏度。此外，该传感器还能准确、稳定地反映人体不同关节的变化。同时，基于应变传感器的数据手套在手势识别和人机交互领域显示出巨大的应用潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Flexible and Printed Electronics MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

4.80

自引率

9.70%

发文量

101

期刊介绍： Flexible and Printed Electronics is a multidisciplinary journal publishing cutting edge research articles on electronics that can be either flexible, plastic, stretchable, conformable or printed. Research related to electronic materials, manufacturing techniques, components or systems which meets any one (or more) of the above criteria is suitable for publication in the journal. Subjects included in the journal range from flexible materials and printing techniques, design or modelling of electrical systems and components, advanced fabrication methods and bioelectronics, to the properties of devices and end user applications.