A quartz-enhanced photoacoustic spectroscopy sensor architecture capable ofdetecting eight different air pollutants (CH4,NO2,CO2,N2O, CO, NO, SO2, andNH3) is reported. Each analyte is targeted using the same sensor components(acoustic detection module, quartz-tuning fork, etc.) and a dedicated laser source.Both interband cascade lasers and quantum cascade lasers are employed totarget a well-resolved and isolated absorption feature from each investigated gas,in a wavelength ranging from 3.35 to 9.06μm. The sensor is calibrated withcertified concentrations of each gas species, in a wet nitrogen matrix. For eachanalyte, the optimal pressure is determined. Minimum detection limits of 40, 13,800, 230, 450, 78, 18, and 5.8 ppb are obtained for CH4, NO2, CO2, N2O, CO, NO, SO2, and NH3, respectively, at 100 ms of integration time.
Quartz‐Enhanced Photoacoustic Sensors for Detection of Eight Air Pollutants / De Palo, Raffaele; Elefante, Arianna; Biagi, Gabriele; Paciolla, Francesco; Weih, Robert; Villada, Valeria; Zifarelli, Andrea; Giglio, Marilena; Sampaolo, Angelo; Spagnolo, Vincenzo; Patimisco, Pietro. - In: ADVANCED PHOTONICS RESEARCH. - ISSN 2699-9293. - ELETTRONICO. - (2023). [10.1002/adpr.202200353]
Quartz‐Enhanced Photoacoustic Sensors for Detection of Eight Air Pollutants
Elefante, Arianna;Biagi, Gabriele;Paciolla, Francesco;Villada, Valeria;Zifarelli, Andrea;Giglio, Marilena;Sampaolo, Angelo;Spagnolo, Vincenzo;Patimisco, Pietro
2023-01-01
Abstract
A quartz-enhanced photoacoustic spectroscopy sensor architecture capable ofdetecting eight different air pollutants (CH4,NO2,CO2,N2O, CO, NO, SO2, andNH3) is reported. Each analyte is targeted using the same sensor components(acoustic detection module, quartz-tuning fork, etc.) and a dedicated laser source.Both interband cascade lasers and quantum cascade lasers are employed totarget a well-resolved and isolated absorption feature from each investigated gas,in a wavelength ranging from 3.35 to 9.06μm. The sensor is calibrated withcertified concentrations of each gas species, in a wet nitrogen matrix. For eachanalyte, the optimal pressure is determined. Minimum detection limits of 40, 13,800, 230, 450, 78, 18, and 5.8 ppb are obtained for CH4, NO2, CO2, N2O, CO, NO, SO2, and NH3, respectively, at 100 ms of integration time.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
