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Compact Differential Photoacoustic Exhaled Gas Sensor for Online ETCO <sub>2</sub> and ETO <sub>2</sub> Monitoring

Xukun Yin, Chenchen Zhu, Xiu Yang, Lei Liu, Dacheng Zhang, Kaijie Xu, Hongzhi Wang, Shuangping Zhang, Nicoletta Ardito, Pietro Patimisco, Angelo Sampaolo, Vincenzo Spagnolo, Hongpeng Wu, Huailiang Xu

2026ACS Sensors8 citationsDOI

Abstract

Online exhaled breath analysis holds great promise for noninvasive medical diagnostics, health monitoring, and environmental exposure assessment. However, the complex nature of the breath matrix and strong interference from water vapor and carbon dioxide make high-precision, real-time sensing challenging, often requiring large and costly systems such as mass spectrometers. In this work, we present a compact differential photoacoustic gas sensor for end-tidal carbon dioxide (ETCO 2 ) and end-tidal oxygen (ETO 2 ) monitoring. The sensor employs a dual-resonator photoacoustic cell with resonant frequencies of 4110 and 13,115 Hz for selective ETCO 2 and ETO 2 detection, respectively. A small sample gas volume of 2.6 mL enables a rapid response time of <0.5 s, enabling rapid tracking of changes in exhaled gas concentration. The optimized system achieves detection limits of 12.6 ppm for CO 2 and 18.4 ppm for O 2, with corresponding normalized noise equivalent absorption values of 2.9 × 10 −8 and 1.6 × 10 −7 cm −1 ⋅W⋅Hz −1/2 . Real-time monitoring during human respiration demonstrates clear tracking of physiological O 2 depletion and CO 2 enrichment, consistent with respiratory dynamics. The developed sensor combines high sensitivity, fast response, compact size, and low cost, showing strong potential for continuous clinical monitoring, perioperative care, and metabolic studies.

Topics & Concepts

Breath gas analysisRespiratory monitoringCarbon dioxideMaterials scienceCarbon dioxide sensorContinuous monitoringPhotoacoustic imaging in biomedicineAnalytical Chemistry (journal)ExhalationAbsorption (acoustics)Photoacoustic spectroscopyTracking (education)Differential interference contrast microscopyOxygenBiomedical engineeringRespirationCarbon monoxideChemistryNoise (video)Volume (thermodynamics)Exhaled airOptoelectronicsCarbon nanotubeRespiratory systemResponse timeInhalationRoom air distributionAnalyteDetection limitSpectroscopy and Laser ApplicationsPhotoacoustic and Ultrasonic ImagingAdvanced Chemical Sensor Technologies
Compact Differential Photoacoustic Exhaled Gas Sensor for Online ETCO <sub>2</sub> and ETO <sub>2</sub> Monitoring | Litcius