采用不同制备方法生产的银纳米粒子基聚二甲基硅氧烷复合应变传感器的性能

ty10086 提交于 周三, 08/25/2021 - 15:49
文章英文标题
Performance of a silver nanoparticles-based polydimethylsiloxane composite strain sensor produced using different fabrication methods
正文
目前,各种类型的柔性可伸展应变传感器已被应用于人体运动检测、软机器人、健康监测等智能可穿戴设备的潜在应用。可拉伸应变传感器可通过几种制备方法制作。然而,生产具有理想特性、成本效益和适宜质量消耗的应变传感器仍然具有挑战性。本研究的目的是比较三种方法制备的复合应变传感器:滴注法、丝网印刷法和旋涂法。本研究利用银纳米粒子( AgNPs )和聚二甲基硅氧烷( PDMS )制备了Ag @ PDMS复合应变传感器。采用不同的表征方法对制备的Ag @ PDMS复合应变传感器的电导率、迟滞特性和灵敏度进行了分析,并通过形貌分析对结果进行了验证。基于所得结果,采用滴注法和丝网印刷法制作了性能良好的Ag @ PDMS复合应变传感器。两种方法都制作了电导率相近的Ag @ PDMS复合应变传感器。由于70 %应变测试下观察到的裂纹较少,因此滴注法的迟滞性能最好,灵敏度最高( GF = 10.08 )。总之,采用滴注法制备的Ag @ PDMS复合材料应变传感器表现出良好的性能,具有作为应变传感器的潜力。
文章内容(英文)
Nowadays, various types of flexible and stretchable strain sensors have been used in the potential applications in smart wearable devices such as human motion detection, soft robotics, and health monitoring, etc. The stretchable strain sensor can be produced by several fabrication methods. However, the production of a strain sensor with desirable characteristics, cost-effectiveness, and suitable mass consumption, is still challenging. The aim of this present study is to compare composite strain sensors fabricated by three methods which are drop-casting, screen-printing, and spin-coating. In this study, silver nanoparticles (AgNPs) and polydimethylsiloxane (PDMS) were used to fabricate Ag@PDMS composite based strain sensor. The electrical conductivity, hysteresis behaviour, and sensitivity of fabricated Ag@PDMS composite based strain sensors were analyzed by different characterization methods and the results were supported by morphological analysis. Based on the obtained results, the drop-casting and screen-printing methods produced Ag@PDMS composite strain sensors with good performance. Both methods produced Ag@PDMS composite strain sensors with similar electrical conductivity. The best hysteresis behaviour and the highest sensitivity performance (GF = 10.08) were achieved in the drop-casting method due to the less cracking observed under 70 % strain testing. In short, Ag@PDMS composite based strain sensor fabricated by the drop-casting method exhibited good performance and it has a potential to be used as a strain sensor.
来源出处
Journal|[J]Sensors and Actuators A: PhysicalVolume 329, 2021.
DOI
https://doi.org/10.1016/J.SNA.2021.112793

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信息更新:

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备注说明:

美国道康宁道康宁SYLGARD 184硅橡胶是由液体组分组成的双组分套件产品,包括基本组分与固化剂。基本组分与固化剂按10:1重量比完全混合,中等粘度混合液的稠度与SAE 40机油相似。无论厚薄,混合液将固化成为具有韧性的透明弹性体,最适用于电子/电气方面的封装与灌封应用。 道康宁SYLGARD 184硅橡胶在25~150℃的温度范围内固化,无放热现象,无需二次固化。固化过程完成后,可立即在-55~200℃的温度范围内使用。 产品特性:低毒性,在常规的工业操作中,无特别的注意事项; 无溶剂或固化副产物, 固化时不放热;无需特殊的通风条件,不会产生腐蚀;固化时,收缩量小; 固化后, 透明具有弹性;抗震与减缓机械震动;振动的传递性能小;元件可裸视检查与易修补性; 环保性能;低吸水性,良好的耐辐射性能;高真空状态下的低漏气性; 优异的电性能;较大温度范围内的稳定性, 抗解聚;在-55~200℃范围内,甚至在密闭状态下保持弹性与柔韧性,性能稳定; 阻燃性,UL可燃性分级为94 V-1,温度等级:130℃ 产品用途: 道康宁SYLGARD 184硅橡胶在电气/电子的封装与灌封方面有广泛的应用。