室温下用于乙醇检测的脉冲紫外辐照石墨烯传感器

K. Drozdowska, A. Rehman, P. Sai, B. Stonio, A. Krajewska, G. Cywiński, M. Haras, S. Rumyantsev, J. Smulko, A. Kwiatkowski
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引用次数: 2

摘要

报道了一种以场效应晶体管(GFET)结构制作的石墨烯气体传感器及其对乙醇和甲烷的灵敏度。在脉冲紫外照射下和在氮气环境下用紫外光清洗后,对100 ppm水平的乙醇进行了检测。在乙醇存在的情况下,紫外线照射脉冲频率的降低导致传感器电阻变化的增加。在低频紫外光脉冲作用下,石墨烯表面更有效的扩散和吸附过程改善了传感行为。此外,在较高的栅极电压(~30 V)下,电荷载流子密度的调制使传感器响应更加明显。无论使用何种辐照频率,GFET在室温下对甲烷(200 ppm)不敏感,这表明石墨烯基器件具有选择性气体传感能力的潜在应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pulsed UV-irradiated Graphene Sensors for Ethanol Detection at Room Temperature
A graphene-based gas sensor fabricated in a FET (GFET) configuration and its sensitivity towards ethanol and methane is reported. Detection of ethanol at the level of 100 ppm was observed under pulsed UV irradiation and after cleaning by UV light in the N2 ambient. Reduction of the frequency of UV irradiation pulses resulted in increased changes in sensor resistance in the presence of ethanol. Improved sensing behavior was ascribed to more effective diffusion and adsorption processes at the graphene surface during low-frequency UV light pulses. Additionally, modulation of charge carrier density allowed more pronounced sensor responses at higher gate voltages (~30 V). GFET was insensitive to methane (200 ppm) at room temperature, regardless of irradiation frequency used, suggesting the potential application of selective gas sensing capability of graphene-based devices.
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