31 January 2014 Quantum cascade laser-based sensor system for hydrogen peroxide detection
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Abstract
A quartz-enhanced photoacoustic spectroscopy (QEPAS) sensor system was developed for the sensitive detection of hydrogen peroxide (H2O2) using its absorption transitions in the v6 fundamental band near 7.73 μm. The recent availability of distributed-feedback quantum cascade lasers (DFB-QCLs) provides convenient access to a strong H2O2 absorption line located at 1295.55 cm-1. Sensor calibration was performed by means of a water bubbler that generated titrated average vapor concentrations. A minimum detection limit of 75 parts per billion (ppb) was achieved at a pressure of 80 torr for a 1 sec data acquisition time. The long-term repeatability and stability of the sensor was investigated by measuring time-varying H2O2 mixtures for ~2 hrs. An Allan deviation analysis was performed to investigate the long-term performance of the QEPAS sensor system, indicating the feasibility of a minimum detection limit of 12 ppb using the optimum data averaging time of 100 sec.
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Wei Ren, Wei Ren, Wenzhe Jiang, Wenzhe Jiang, Nancy Sanchez, Nancy Sanchez, Pietro Patimisco, Pietro Patimisco, Vincenzo Spagnolo, Vincenzo Spagnolo, Chung-en Zah, Chung-en Zah, Feng Xie, Feng Xie, Lawrence C. Hughes, Lawrence C. Hughes, Robert J. Griffin, Robert J. Griffin, Frank K. Tittel, Frank K. Tittel, } "Quantum cascade laser-based sensor system for hydrogen peroxide detection", Proc. SPIE 8993, Quantum Sensing and Nanophotonic Devices XI, 89931X (31 January 2014); doi: 10.1117/12.2039557; https://doi.org/10.1117/12.2039557
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