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Literature DB >> 29714232

QEPAS sensor for breath analysis: a behavior of pressure.

Tobias Milde, Morten Hoppe, Herve Tatenguem, Mario Mordmüller, James O'Gorman, Ulrike Willer, Wolfgang Schade, Joachim Sacher.

Abstract

The measurement of trace gases has increasingly become a key technique in healthcare and other medical applications. Quartz-enhanced photoacoustic spectroscopy (QEPAS) is a suitable method that can provide the required characteristics in such applications for a comparatively low cost and small size. The quantitative detection and a low detection limit are also required by applications. In this paper, we present new results on sensing biomedically relevant gases using the on-beam QEPAS technique with some newly developed tunable high-power single-mode laser diodes based on GaSb material. The data processing and detection limit determination are done by a field programmable gate array device, as well as an automatic measurement of the resonance frequency.

Year: 2018 PMID： 29714232 DOI： 10.1364/AO.57.00C120

Source DB: PubMed Journal: Appl Opt ISSN： 1559-128X Impact factor: 1.980

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Cited

6 in total

1. Near-infrared tunable diode laser absorption spectroscopy-based determination of carbon dioxide in human exhaled breath.

Authors: Cunguang Lou; Congrui Jing; Xin Wang; Yuhao Chen; Jiantao Zhang; Kaixuan Hou; Jianquan Yao; Xiuling Liu
Journal: Biomed Opt Express Date: 2019-10-02 Impact factor: 3.732

2. Quartz tuning forks resonance frequency matching for laser spectroscopy sensing.

Authors: Yufei Ma; Yinqiu Hu; Shunda Qiao; Ziting Lang; Xiaonan Liu; Ying He; Vincenzo Spagnolo
Journal: Photoacoustics Date: 2022-01-11

3. Highly Sensitive Sphere-Tube Coupled Photoacoustic Cell Suitable for Detection of a Variety of Trace Gases: NO₂ as an Example.

Authors: Zhengang Li; Ganshang Si; Zhiqiang Ning; Jiaxiang Liu; Yonghua Fang; Beibei Si; Zhen Cheng; Changping Yang
Journal: Sensors (Basel) Date: 2021-12-30 Impact factor: 3.576

QEPAS sensor for breath analysis: a behavior of pressure.

1. Near-infrared tunable diode laser absorption spectroscopy-based determination of carbon dioxide in human exhaled breath.

2. Quartz tuning forks resonance frequency matching for laser spectroscopy sensing.

3. Highly Sensitive Sphere-Tube Coupled Photoacoustic Cell Suitable for Detection of a Variety of Trace Gases: NO₂ as an Example.

4. Highly Sensitive Trace Gas Detection Based on In-Plane Single-Quartz-Enhanced Dual Spectroscopy.

Review 5. Advances in Mid-Infrared Spectroscopy-Based Sensing Techniques for Exhaled Breath Diagnostics.

6. Ultra-Highly Sensitive Hydrogen Chloride Detection Based on Quartz-Enhanced Photothermal Spectroscopy.

QEPAS sensor for breath analysis: a behavior of pressure.

1. Near-infrared tunable diode laser absorption spectroscopy-based determination of carbon dioxide in human exhaled breath.

2. Quartz tuning forks resonance frequency matching for laser spectroscopy sensing.

3. Highly Sensitive Sphere-Tube Coupled Photoacoustic Cell Suitable for Detection of a Variety of Trace Gases: NO2 as an Example.

4. Highly Sensitive Trace Gas Detection Based on In-Plane Single-Quartz-Enhanced Dual Spectroscopy.

Review 5. Advances in Mid-Infrared Spectroscopy-Based Sensing Techniques for Exhaled Breath Diagnostics.

6. Ultra-Highly Sensitive Hydrogen Chloride Detection Based on Quartz-Enhanced Photothermal Spectroscopy.

3. Highly Sensitive Sphere-Tube Coupled Photoacoustic Cell Suitable for Detection of a Variety of Trace Gases: NO₂ as an Example.