WMS based dual-range real-time trace sensor for ethane detection in exhaled breath

•A dual-range real-time ethane trace sensor was developed to meet demands for high sensitivity and dual-range ethane detection in exhaled breath in different subject populations for early screening and diagnosis of lung cancer. Based on TDLAS and WMS techniques, a 3.34 µm ICL and a long-range MPGC w...

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Published in	Optics and lasers in engineering Vol. 159; p. 107222
Main Authors	Li, Guolin, Wu, Yunhui, Zhang, Zecheng, Zhang, Xuena, Ma, Kun, Jiao, Yue, Li, Jiarui, Liu, Yajing, Song, Yimeng, Zhao, Hao, Zhai, Shenqiang, Li, Qiang
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.12.2022
Subjects	Dual-range detection Ethane detection Interband cascade laser Tunable diode laser absorption spectroscopy Wavelength modulation spectroscopy Dual-range detection Ethane detection Wavelength modulation spectroscopy Interband cascade laser Tunable diode laser absorption spectroscopy
Online Access	Get full text
ISSN	0143-8166
DOI	10.1016/j.optlaseng.2022.107222

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Abstract	•A dual-range real-time ethane trace sensor was developed to meet demands for high sensitivity and dual-range ethane detection in exhaled breath in different subject populations for early screening and diagnosis of lung cancer. Based on TDLAS and WMS techniques, a 3.34 µm ICL and a long-range MPGC were adopted in the sensor, which achieve dual-range detection of ethane in exhaled breath with a resolution of 5 ppb.•The LoD of the dual-range real-time trace sensor for ethane detection in exhaled breath is ∼687 ppt with a 2 s integration time and is a minimum value of ∼231 ppt with a 44 s optimum integration time.•The sensor provides high sensitivity, linearity and accuracy for the detection of ethane in exhaled breath at ppm-level and ppb-level. The sensor provides a practical technical supplement for early screening and diagnosis of lung cancer, and has important application value in the field of exhaled breath detection. A highly sensitive mid-infrared dual-range real-time trace sensor was developed for ethane detection in exhaled breath, in which a continuous-wave (CW) mode interband cascade laser (ICL) emitting at 3348.2 nm and a multi-pass gas cell (MPGC) with an effective optical absorption length of 76.3 m were adopted in the trace sensor. The ethane concentration in the exhaled breath was measured by scanning the ethane absorption lines at 2986.7 cm−1 and 2988.2 cm−1 using wavelength modulation spectroscopy (WMS) techniques of tunable diode laser absorption spectroscopy (TDLAS), which allows for highly sensitive detection in two ethane concentration ranges. The Allan deviation indicated the limit of detection (LoD) of the sensor system can be averaged up to ∼269 ppt over the entire integration time.
AbstractList	•A dual-range real-time ethane trace sensor was developed to meet demands for high sensitivity and dual-range ethane detection in exhaled breath in different subject populations for early screening and diagnosis of lung cancer. Based on TDLAS and WMS techniques, a 3.34 µm ICL and a long-range MPGC were adopted in the sensor, which achieve dual-range detection of ethane in exhaled breath with a resolution of 5 ppb.•The LoD of the dual-range real-time trace sensor for ethane detection in exhaled breath is ∼687 ppt with a 2 s integration time and is a minimum value of ∼231 ppt with a 44 s optimum integration time.•The sensor provides high sensitivity, linearity and accuracy for the detection of ethane in exhaled breath at ppm-level and ppb-level. The sensor provides a practical technical supplement for early screening and diagnosis of lung cancer, and has important application value in the field of exhaled breath detection. A highly sensitive mid-infrared dual-range real-time trace sensor was developed for ethane detection in exhaled breath, in which a continuous-wave (CW) mode interband cascade laser (ICL) emitting at 3348.2 nm and a multi-pass gas cell (MPGC) with an effective optical absorption length of 76.3 m were adopted in the trace sensor. The ethane concentration in the exhaled breath was measured by scanning the ethane absorption lines at 2986.7 cm−1 and 2988.2 cm−1 using wavelength modulation spectroscopy (WMS) techniques of tunable diode laser absorption spectroscopy (TDLAS), which allows for highly sensitive detection in two ethane concentration ranges. The Allan deviation indicated the limit of detection (LoD) of the sensor system can be averaged up to ∼269 ppt over the entire integration time.
ArticleNumber	107222
Author	Zhai, Shenqiang Li, Qiang Liu, Yajing Li, Jiarui Song, Yimeng Zhang, Zecheng Li, Guolin Wu, Yunhui Zhang, Xuena Ma, Kun Jiao, Yue Zhao, Hao
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Keywords	Dual-range detection Ethane detection Wavelength modulation spectroscopy Interband cascade laser Tunable diode laser absorption spectroscopy
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Snippet	•A dual-range real-time ethane trace sensor was developed to meet demands for high sensitivity and dual-range ethane detection in exhaled breath in different...
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StartPage	107222
SubjectTerms	Dual-range detection Ethane detection Interband cascade laser Tunable diode laser absorption spectroscopy Wavelength modulation spectroscopy
Title	WMS based dual-range real-time trace sensor for ethane detection in exhaled breath
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