A Graphene Oxide-Based Humidity Sensor for Wearable Electronic

2019 27th Iranian Conference on Electrical Engineering (ICEE) Pub Date : 2019-04-01 DOI:10.1109/IranianCEE.2019.8786557

Reza Razmand, Mehrdad Naemi Dehkharghani, Alireza Karimpour, F. Hossein-Babaei

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Abstract

Layers of graphene oxide (GO) deposited on various substrates have been investigated for their capacitive and resistive features. It has been shown that such layers demonstrate large specific capacitances. Here we report the fabrication of a first GO-on-textile capacitive humidity sensor. GO layers are deposited on aluminum silicate textile, and the impedances of the deposits are measured at different atmospheric conditions using various voltage sweeping frequencies. The results demonstrate the dependence of the layer impedance on the humidity level in the surrounding atmosphere. Further, it is clarified that the layer capacitance is humidity dependent. A capacitive humidity sensor is designed and fabricated. The capacitance of a typical device varies from 130 pF, measured in dry synthetic air, to 5000 pF measured in air with 95% relative humidity (RH). Interestingly, these high sensitivities are measured at low frequencies (f=0.01 Hz); sensitivity to humidity decreases as the voltage sweeping frequency increase. For the first time, it is shown that the sensitivity of these capacitive humidity sensors considerably increase when very low frequencies are used for capacitance measurement. The ratio of the capacitance at RH= 95% to the capacitance at RH < 0.1% both measured at 0.01 Hz is 32 times larger than the same calculated at 100 Hz. The device is suitable for wearable electronic applications.

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基于氧化石墨烯的可穿戴电子湿度传感器

氧化石墨烯(GO)层沉积在各种衬底的电容和电阻特性进行了研究。研究表明，这种层具有较大的比容。在这里，我们报告了第一个GO-on-textile电容湿度传感器的制造。在硅酸铝织物上沉积氧化石墨烯层，并在不同的大气条件下使用不同的电压扫描频率测量氧化石墨烯层的阻抗。结果表明了层阻抗与周围大气湿度水平的关系。此外，还澄清了层电容与湿度有关。设计并制作了一种电容式湿度传感器。典型器件的电容在干燥的合成空气中测量为130pf，在相对湿度(RH)为95%的空气中测量为5000pf。有趣的是，这些高灵敏度是在低频率下测量的(f=0.01 Hz);对湿度的敏感性随着电压扫频的增加而降低。首次表明，当使用极低频率进行电容测量时，这些电容式湿度传感器的灵敏度显着提高。在0.01 Hz下测得的RH= 95%时的电容与RH < 0.1%时的电容之比比在100 Hz下测得的电容之比大32倍。该装置适用于可穿戴电子应用。

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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2019 27th Iranian Conference on Electrical Engineering (ICEE)

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