El-Safoury, MahmoudMahmoudEl-SafouryWeber, ChristianChristianWeberYassine, HassanHassanYassineWöllenstein, JürgenJürgenWöllensteinSchmitt, KatrinKatrinSchmitt2024-01-122024-01-122024https://publica.fraunhofer.de/handle/publica/45872910.3390/s24020457A photoacoustic sensor system (PAS) intended for carbon dioxide (CO2) blood gas detection is presented. The development focuses on a photoacoustic (PA) sensor based on the so-called two-chamber principle, i.e., comprising a measuring cell and a detection chamber. The aim is the reliable continuous monitoring of transcutaneous CO2 values, which is very important, for example, in intensive care unit patient monitoring. An infrared light-emitting diode (LED) with an emission peak wavelength at 4.3 µm was used as a light source. A micro-electro-mechanical system (MEMS) microphone and the target gas CO2 are inside a hermetically sealed detection chamber for selective target gas detection. Based on conducted simulations and measurement results in a laboratory setup, a miniaturized PA CO2 sensor with an absorption path length of 2.0 mm and a diameter of 3.0 mm was developed for the investigation of cross-sensitivities, detection limit, and signal stability and was compared to a commercial infrared CO2 sensor with a similar measurement range. The achieved detection limit of the presented PA CO2 sensor during laboratory tests is 1 vol. % CO2. Compared to the commercial sensor, our PA sensor showed less influences of humidity and oxygen on the detected signal and a faster response and recovery time. Finally, the developed sensor system was fixed to the skin of a test person, and an arterialization time of 181 min could be determined.enPhotoacoustic sensorCarbon dioxide (CO2)TranscutaneousLight-emitting diode (LED)Micro-electro-mechanical system (MEMS) microphoneTwo-chamber photoacoustic systemTowards a Miniaturized Photoacoustic Sensor for Transcutaneous CO2 Monitoringjournal article