利用表面开槽音叉的 Ppb-Level 石英增强光声检测一氧化碳

Ppb-Level Quartz-Enhanced Photoacoustic Detection of Carbon Monoxide Exploiting a Surface Grooved Tuning Fork.

机构信息

State Key Laboratory of Quantum Optics and Quantum Optics Devices, Institute of Laser Spectroscopy , Shanxi University , Taiyuan 030006 , P. R. China.

Collaborative Innovation Center of Extreme Optics , Shanxi University , Taiyuan 030006 , P. R. China.

出版信息

Anal Chem. 2019 May 7;91(9):5834-5840. doi: 10.1021/acs.analchem.9b00182. Epub 2019 Apr 24.

DOI:10.1021/acs.analchem.9b00182

PMID:30994331

Abstract

A compact and sensitive carbon monoxide (CO) sensor was demonstrated by using quartz enhanced photoacoustic spectroscopy (QEPAS) exploiting a novel 15.2 kHz quartz tuning fork (QTF) with grooved surfaces. The custom QTF was designed to provide a quality factor as high as 15 000 at atmospheric pressure, which offers a high detection sensitivity. A large QTF prong spacing of 800 μm was selected, allowing one to avoid the use of any spatial filters when employing a quantum cascade laser as the excitation source. Four rectangular grooves were carved on two prong surfaces of the QTF to decrease the electrical resistance and hence enhance the signal amplitude. With water vapor as the catalyst for vibrational energy transfer, the sensor system using the novel surface grooved QTF achieved a CO minimum detection limit of 7 ppb for a 300 ms averaging time, which corresponds to a normalized noise equivalent absorption coefficient of 8.74 × 10 cmW /√Hz. Continuous measurements covering a seven-day period for atmospheric CO were implemented to verify the reliability and validity of the developed CO sensor system.

摘要

利用石英增强光声光谱（QEPAS）技术，展示了一种紧凑且灵敏的一氧化碳（CO）传感器，该传感器采用了具有刻槽表面的新型 15.2 kHz 石英音叉（QTF）。定制的 QTF 被设计为在大气压下提供高达 15000 的品质因数，从而提供了高检测灵敏度。选择了较大的 QTF 叉指间距 800 μm，从而在使用量子级联激光器作为激发源时可以避免使用任何空间滤波器。在 QTF 的两个叉指表面上刻蚀了四个矩形槽，以降低电阻，从而增强信号幅度。利用水蒸气作为振动能量转移的催化剂，该传感器系统使用新型表面刻槽 QTF，在 300 ms 的平均时间内实现了 CO 的最低检测限为 7 ppb，对应归一化噪声等效吸收系数为 8.74×10 cmW /√Hz。实施了为期七天的大气 CO 连续测量，以验证所开发的 CO 传感器系统的可靠性和有效性。

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利用表面开槽音叉的 Ppb-Level 石英增强光声检测一氧化碳

Ppb-Level Quartz-Enhanced Photoacoustic Detection of Carbon Monoxide Exploiting a Surface Grooved Tuning Fork.

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