基于聚合物涂层基板上激光诱导石墨烯材料的压力传感器性能

A. Al-Hamry, Zheng Xian, Anurag Adiraju, Rajarjan Ramilingame, Dhivakar Rejerandan, O. Kanoun
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引用次数: 1

摘要

激光直接书写是一种高效、准确的材料成形方法,具有精度高、选择性强、对邻近区域影响小等优点。它可以通过聚酰亚胺的碳化制备石墨烯。石墨碳图案化在不同的应用领域显示出良好的潜力。本文介绍了一种基于激光诱导石墨烯(LIG)材料的力传感器,包括其制造工艺,激光辅助模式的微观表征,外加载荷下的压阻行为。LIG传感器在高达100 N/cm2的压力范围内工作,具有高灵敏度(在≤25 N的低力范围内相对变化高达80%)和高循环稳定性,这有助于其在健康监测甚至人机交互方面的应用潜力。研究了激光功率、写入速度和写入分辨率等参数对传感器灵敏度的影响。压力传感器的灵敏度取决于激光功率和激光写入所获得的初始电阻。使用PDMS涂层卡普顿片制造压力传感器的优点是增加了灵敏度和稳定性。然而,写入需要高激光功率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance of Pressure Sensors based on Laser Induced Graphene Material on Polymeric Coated Substrate
Direct laser writing is an efficient and accurate material forming method with high accuracy, strong selectivity and small influence on adjacent areas. It can be used in the fabrication of graphene through the carbonization of polyimide. The graphitic carbon patterning has shown promising potential for different applications. This work introduces a force sensor based on laser induced graphene (LIG) material, including its fabrication process, microscopic characterization of laser- assisted patterns, the piezoresistive behavior under the applied load. The LIG sensor operates in a pressure range up to 100 N/cm2 with high sensitivity (up to 80 % relative change in the low force range ≤ 25 N) and high cyclic stability which facilitate its potential in the application of health monitoring and even human-computer interaction. Several parameters such as laser power, writing speed and writing resolution were investigated and evaluated by their effect on sensor sensitivity. The sensitivity of the pressure sensor depends on laser power and the initial resistance achieved by laser writing. The advantage of using a PDMS coated Kapton sheet for fabrication of pressure sensors is the increase of sensitivity and stability. However, high laser power is required for the writing.
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