一种柔性多模态传感器，用于激光直写完全解耦无串扰压力和温度传感

2023 IEEE 18th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS) Pub Date : 2023-05-14 DOI:10.1109/NEMS57332.2023.10190891

Jincheng Wang, Rui Chen, Tao Luo, Linjing Wu, Wei Zhou

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引用次数: 0

摘要

本文提出了一种柔性多模态一体化结构的紫外纳秒激光压力温度传感器。为了实现温度传感，我们用石墨烯薄膜对柔性热电发电机进行了激光图案化。然后，基于压阻效应原理制备了碳粉-碳纳米管/聚二甲基硅氧烷(CP-CNT/PDMS)导电聚合物，并利用紫外激光作为压敏层制备了微锥结构。实验结果表明，该传感器仅通过单通道信号采集就能区分压力和温度信号。拉曼光谱分析表明，使用FeCl3可以对石墨烯薄膜进行p型掺杂，热电发电机的功率因数比掺杂前提高了4倍。有限元分析(FEA)结果表明，高度为500 μm、宽度为100 μm的微锥阵列具有最佳灵敏度(灵敏度为0.587 kPa$^{-1}$)和探测范围(160 kPa)。

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A Flexible Multimodal Sensor for Fully Decoupled Crosstalk-Free Pressure and Temperature Sensing via Laser Direct Writing

This paper presents a flexible multimodal all-in-one structure sensor for pressure and temperature sensing via an ultraviolet (UV) nanosecond laser. To achieve temperature sensing, we laser patterned the flexible thermoelectric generator with the graphene film. Then, we prepared Carbon Powder-Carbon Nanotube/Polydimethylsiloxane (CP-CNT/PDMS) conducting polymers based on the principle of piezoresistive effect, and then fabricated microcone structures using UV laser as pressure-sensing layers. Experimental results show that our sensor can distinguish pressure and temperature signals with only a single channel signal acquisition. Raman spectroscopy analysis shows that P-type doping of graphene films can be performed using FeCl3, and the power factor of thermoelectric generators is four times higher than that before doping. Finite element analysis (FEA) results show a microcone array with a height of 500 μm and a width of 100 μm exhibit optimized sensitivity (sensitivity of 0.587 kPa$^{-1}$) and detection range (range of 160 kPa)

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来源期刊

2023 IEEE 18th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS)

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