Dinitrogen pentoxide (N₂O₅) is an important reactive intermediate in the atmospheric chemistry of nitrogen oxides and nitrate aerosol, especially during night-time. It is also an important reservoir of NO₃radical that can react with various volatile organic compounds (VOCs) including alkenes and dimethyl sulphide (DMS). The heterogeneous removal of N₂O₅through the reactions of NO₃(and N₂O₅) with aerosol particles may lead to a global O₃reduction, thus directly and indirectly impacting on climate. Despite its importance and several decades of research, there are still many open questions about the role of N₂O₅in tropospheric chemistry due to the lack of suitable measurement methods for precise quantification of N₂O₅浓度。

Tunable laser absorption spectroscopy in the infrared involving fundamental ro-vibrational molecular transitions could provide a useful tool for high-sensitivity and high temporal resolution measurements of N₂O₅. However, the N₂O₅absorption in the infrared exhibits a broad band absorption feature (over ~40 cm⁻¹) and the usually used distributed feedback lasers with a tuning range of ~5 cm⁻¹were unable to scan a whole N₂O₅absorption feature for accurate quantification. Widely-tunable external-cavity quantum cascade laser (EC-QCL) is mostly suitable for such application. However, the prominent drawback of the commercially available broadband EC-QCL is the unavoidable etalon fringes resulting from its external cavity design structure. These etalon fringes limit the ultimate detection sensitivity and measurement accuracy.

Fig. 1. left: Schematic of the EC-QCL-MPC apparatus used for quantitative measurements of N₂O₅in an ASC. A He–Ne laser (λ =632.8 nm) overlapped with the mid-IR EC-QCL beam by means of a dichroic beamsplitter DB (ISP Optics, model BSP-DI-25-3) was used for optical alignment. L: focusing lens; M: reflective mirror; W: CaF2 window; LED-IBBCEAS: Light emitted diode based incoherent broadband absorption spectrometer for NO₂and NO₃measurement; right: Picture of the ASC involved in the present work.

We report recently on the development of an EC-QCL based spectroscopic instrument for N₂O₅measurement by direct long path absorption spectroscopy near 8 μm. The experimental set-up is schematically depicted in Fig. 1. A water-cooled continuous-wave EC-QCL (Daylight Solutions, Model CW-MHF 41000), mode-hop free tunable in the infrared spectral region from 1223 to 1263 cm⁻¹, was used to probe broadband absorption of N₂O₅of the ν₁₂band near 8 μm. The EC-QCL beam was collimated and injected into a home-made multipass cell (MPC) installed inside the atmospheric simulation chamber (ASC) in open-path configuration. MPC was formed with two spherical mirrors separated by about 1 m resulting in an effective optical pathlength ofL_eff= 70 m. The laser beam emerging from the MPC was focused onto a VIGO detector (PVI-4TE-4). The direct absorption signal of N₂O₅from the VIGO detector was digitalized with a data acquisition card (NI-6036E) and processed with a Labview-based program associated with a laptop computer. The developed EC-QCL-based N₂O₅sensing platform was evaluated by real-time tracking N₂O₅concentration in its most important nocturnal tropospheric chemical reaction of NO₃+ NO₂↔ N₂O₅(Eq.1) in an ASC operating at atmospheric pressure and room temperature (293.2 ± 0.5 K) under dry conditions (RH < 1%).

A specific algorithm was developed for the precise retrieval of N₂O₅浓度(图。2。left), which allowed us to significantly eliminate the unavoidable intrinsic etalon fringes of the EC-QCL and spectral interference lines of H₂O vapor absorption, allowing us to improve detection sensitivity of the EC-QCL instrument by a factor of 10 and to eliminate bias error of ~21% caused by the etalon effects in the retrieved N₂O₅浓度。使用一个L_eff= 70 m, a minimum detection limit (DL) of 15 ppbv was achieved with a 25 s integration time (Fig. 2.right).

Fig. 2. left: Flow chart illustrating the developed N₂O₅concentration retrieval algorithm, in comparison with a traditional method. right: Retrieval of N₂O₅浓度。(a) Measured (black) and fitted (red) N₂O₅absorption spectra including H₂O vapor, etalon fringe and baseline fluctuation. (b) Decomposed 206 ppb N₂O₅absorption spectrum (black) and the corresponding fit (red) from (a). (c) Fit residual.

The equilibrium rate constantK_eqinEq.1was determined with the help of the direct concentrations measurements using the developed EC-QCL sensing platform. The result agreed well with the theoretical value deduced from a referenced empirical formula under well controlled experimental conditions. This work demonstrates the potential and the unique advantage of using a modern EC-QCL for applications in direct quantitative measurement of broadband absorption of key climate-change related molecular species.

Hongming Yi^1,*,Tao Wu^1,2,Amélie Lauraguais¹,Vladimir Semenov³,Cecile Coeur¹,Andy Cassez¹,Eric Fertein¹,Xiaoming Gao⁴,Weidong Chen^1
1Laboratoire de Physicochimie de l’Atmosphère, Université du Littoral Côte d’Opale, 59140 Dunkerque, France
²Key Laboratory of Nondestructive Test, Nanchang Hangkong University, Nanchang 330063, China
³A.M. Prokhorov General Physics Institute, Russian academy of sciences, Moscow, Russia
⁴Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Hefei 230031, China
*now with Material Measurement Laboratory, National Institute of Standards and Technology, Gaithersburg, Maryland, USA

Publication

High-accuracy and high-sensitivity spectroscopic measurement of dinitrogen pentoxide (N2O5) in an atmospheric simulation chamber using a quantum cascade laser.
Yi H, Wu T, Lauraguais A, Semenov V, Coeur C, Cassez A, Fertein E, Gao X, Chen W
Analyst. 2017 Dec 4

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