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應(yīng)用案例 | Ppb級中紅外石英增強(qiáng)光聲傳感器,用于使用T型音叉調(diào)諧探測DMMP
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近日,來自山西大學(xué)激光光譜研究所、光學(xué)協(xié)同創(chuàng)新中心,-巴里大學(xué)和巴里理工大學(xué)跨校物理系波利森斯實(shí)驗(yàn)室的聯(lián)合研究團(tuán)隊(duì)發(fā)表了《Ppb級中紅外石英增強(qiáng)光聲傳感器,用于使用T型音叉調(diào)諧探測DMMP》論文。

Recently, the joint research team from State Key Laboratory of Quantum Optics and Quantum Optics Devices, Institute of Laser Spectroscopy, Shanxi University, Collaborative Innovation Center of Extreme Optics, PolySense Lab-Dipartimento Interateneo di Fisica, University and Politecnico of Bari published an academic papers Ppb-level mid-IR quartz-enhanced photoacoustic sensor for  DMMP detection using a T-shaped tuning fork.

 

二甲基甲基膦酸酯(DMMP)被廣泛認(rèn)為是最具代表性的模擬物,已開發(fā)并廣泛用于DMMP檢測的各種氣體分析技術(shù)。

氣相色譜(GC)和質(zhì)譜(MS)分析可以高敏感地鑒定不同的有機(jī)磷化合物,但它們在原位監(jiān)測方面具有幾個(gè)缺點(diǎn),包括昂貴和耗時(shí)。此外,色譜分析必須由熟練的人員在專門的實(shí)驗(yàn)室中進(jìn)行,不適合小型化。相比,光聲光譜(PAS)是DMMP氣體水平監(jiān)測最有前景的技術(shù)之一,因?yàn)樗哂懈哽`敏度、選擇性和快速響應(yīng)的優(yōu)勢。作為PAS的一種變體,石英增強(qiáng)光聲光譜(QEPAS)技術(shù)自2002年首次報(bào)道以來迅速發(fā)展,其中超窄帶石英調(diào)諧叉(QTF)與兩個(gè)作為銳利共振聲學(xué)換能器的聲學(xué)微共振器(AmRs)在聲學(xué)上耦合,用于檢測聲音信號,而不是傳統(tǒng)的寬帶麥克風(fēng)。與體積超過10 cm3的傳統(tǒng)光聲池相比,小體積的QTF更有利于DMMP檢測設(shè)備的小型化和快速響應(yīng)。此外,QEPAS技術(shù)的顯著特點(diǎn)是激發(fā)波長的獨(dú)立性,這意味著可以使用相同的光譜聲學(xué)器測量具有不同特征吸收光譜的痕量氣體。DMMP在9–11.5 μm的中紅外區(qū)域顯示出強(qiáng)烈的光吸收特征,因此使用高性能中紅外量子級聯(lián)激光器(QCLs)可以在理論上實(shí)現(xiàn)高靈敏度的檢測。然而,中紅外QCL輸出光束通常具有較大的發(fā)散角,這使得將中紅外激光束耦合到具有300微米叉間距的QTF中成為巨大的挑戰(zhàn),因?yàn)槿魏握`散射光束擊中QTF都會產(chǎn)生大的背景信號。

在本研究中,我們展示了一種基于定制T型QTF和中紅外量子級聯(lián)激光器(QCL)的小型化集成QEPAS DMMP傳感器。T型QTF的叉間距為0.8毫米,具有約15,000的高品質(zhì)因數(shù),避免了由誤散射光引起的背景信號,從而在ppb水平上獲得最佳檢測限。通過使用摻入DMMP的真實(shí)室外空氣對傳感器進(jìn)行測試,以驗(yàn)證其有效性。

 

Dimethyl methylphosphonate (DMMP) is widely regarded as the most representative simulant and has been developed and extensively utilized in various gas analysis techniques for DMMP detection.

Gas chromatography (GC) and mass spectrometry (MS) analysis can identify the different organophosphorus compounds with high sensitivity, but they have several disadvantages for in situ monitoring, including being expensive and time-consuming. Moreover, the chromatographic analysis must be performed in a specialized laboratory by skilled personnel and is not suitable for miniaturization. Compared with the above techniques, photoacoustic spectroscopy (PAS) is one of the most promising techniques for sarin gas level monitoring in public places due to its benefits of high sensitivity, selectivity, and fast response. The quartz-enhanced photoacoustic spectroscopy (QEPAS) technique as a variant of PAS has rapidly developed since it was first reported in 2002, in which an ultra-narrowband quartz tuning fork (QTF) acoustically couples with two acoustic micro-resonators (AmRs) acting as a sharply resonant acoustic transducer to detect sound signals instead of conventional broadband microphones. Compared with the sizes of the conventional photoacoustic cell, which is more than 10 cm3, the small volume of QTF is more conducive to the miniaturization and rapid response of sarin or DMMP detection equipment. Besides, the remarkable feature of the QEPAS technique is the excitation wavelength independence, meaning that trace gases with different characteristic absorption spectra can be measured using the same spectrophone. Sarin and DMMP show strong optical absorption features in the mid-infrared region of 9–11.5 μm, so high detection sensitivity can be theoretically achieved using high-performance mid-infrared quantum cascade lasers (QCLs). However, the mid-infrared QCL output beam usually has a large divergence angle, which makes it a great challenge to couple a mid-infrared laser beam through a 300-μm prong-spacing QTF since any stray light hitting the QTF can cause a large background signal.

In this work, we demonstrate a miniaturized and integrated QEPASbased DMMP sensor, in which a custom T-shaped QTF and a midinfrared quantum cascade laser (QCL) are used. The T-shaped QTF has a prong spacing of 0.8 mm and a high-quality factor of ~ 15,000, avoiding the background signal caused by stray light, thus obtaining an optimal detection limit at the ppb level. The DMMP sensor was tested using real outdoor air mixed with DMMP to verify its effectiveness.

 

實(shí)驗(yàn)部分:檢測波長和光學(xué)激發(fā)源的選擇

強(qiáng)有力的靶向吸收帶對于DMMP檢測至關(guān)重要,因?yàn)閷?shí)際應(yīng)用需要具有亞百萬分之一靈敏度的傳感裝置。

由于其高輸出功率、緊湊性和窄的光譜線寬,QCLs在中紅外光譜區(qū)域已成為最多功能的半導(dǎo)體激發(fā)源??紤]到激發(fā)波長和激光源的大小,寧波海爾欣光電科技有限公司為該實(shí)驗(yàn)提供了一個(gè)發(fā)射波長為9.5 μm,線寬為2 MHz的QCL激光器(QC-Qube 200831-AC712)作為DMMP-QEPAS傳感器的激發(fā)源,其輸出功率穩(wěn)定性<2%一個(gè)具有極低電流噪聲和溫漂的QCL激光器驅(qū)動(dòng)電路QC750-Touch?),在室溫下操作,以穩(wěn)定發(fā)射波長。通過激光驅(qū)動(dòng)電路將QCL的溫度設(shè)定為25.5℃。如圖2所示,所使用的QCL激光器的輸出波長是驅(qū)動(dòng)電流的函數(shù),并且其波長調(diào)諧范圍落在所選吸收帶中(圖1中的綠色框區(qū)域)。圖2中繪制了QCL激光器的平均功率與驅(qū)動(dòng)電流之間的線性關(guān)系,表現(xiàn)出良好的線性關(guān)系。此外,該激光源的小尺寸是一個(gè)顯著特點(diǎn),外部尺寸約為300 cm3(65 × 65 × 70 mm3),使激光源能夠?qū)崿F(xiàn)緊湊的氣體傳感器。

 

Experimental section: Selection of detection wavelength and optical excitation source

A strong targeted absorption band is vital for DMMP detection because the practical application necessitates sensing devices with subparts-per-million sensitivities. Considering the excitation wavelength and size of the laser source, a QCL laser (Ningbo Healthy Photon Technology, QC-Qube 200831- AC712) with an emission wavelength of 9.5 μm and a linewidth of 2 MHz was employed as the excitation source of the DMMP-QEPAS sensor, which has an output power stability of < 2 %. The QCL laser driving circuit (Healthy Photon QC750-Touch?) with extremely low current noise and temperature drift operated at room temperature for stabilizing the emitting wavelength. The temperature of the QCL was set to 25.5 ℃ by means of the laser driving circuit. As shown in Fig. 2, the output wavelength of the QCL laser used is a function of the driving current and its wavelength tuning range fall in the selected absorption band (the green box area in Fig. 1). The linear relationship between the average power of the QCL laser and the driving current was plotted in Fig. 2, demonstrating good linearity. Moreover, the small size is a noticeable feature of this laser source, which has an outside dimension of ~ 300 cm3 (65 × 65 × 70 mm3), allowing the laser source to realize compact gas sensors.

 

 

Fig. 1. Absorption spectra of 1-ppm DMMP/N2 gas mixture (red) obtained by the FTIR spectrometer and absorption spectra of 300-ppm H2O (blue) and 5- ppm CO2 (orange) based on HITRAN database. Inset: DMMP absorption band in the range of 1040–1065 cm? 1 and wavelength tuning range of the used QCL laser.

Fig. 2. QCL emission wavelength and output optical power as a function of driving current in amplitude modulation operating mode with a duty cycle of 50 %.

 QCL laser: HealthyPhoton, QC-Qube                                                                                           QCL laser driving circuit:: Healthy Photon, QC750-Touch?

 

結(jié)論

基于QEPAS的傳感器由于其波長獨(dú)立性具有很高的多功能性,這使得通過替換激光源可以檢測各種神經(jīng)毒劑。在本研究中,首次開發(fā)了一種緊湊尺寸和可靠性能的ppb級QEPAS DMMP傳感器。選擇了9.56 μm的激發(fā)波長,這是最強(qiáng)的DMMP吸收帶,不受H2O和CO2的干擾。優(yōu)化了主要系統(tǒng)參數(shù),包括激光激發(fā)功率、氣體壓力和調(diào)制頻率。最終,在0至1.5 ppm范圍內(nèi)驗(yàn)證了傳感器的線性,并在300毫秒的積分時(shí)間下實(shí)現(xiàn)了6 ppb的最低檢測限。我們使用真實(shí)室外空氣作為載氣檢測了500 ppb的DMMP,并獲得了與以零氣作為載氣時(shí)相同的信號幅度,從而驗(yàn)證了傳感器的高選擇性。

Conclusions

The QEPAS-based sensor has high versatility due to its wavelength independence, which makes it possible to detect various nerve agents by replacing the laser sources. In this work, a ppb-level QEPAS-based DMMP sensor was developed with a compact size and reliable performance for the first time. An excitation wavelength of 9.56 μm was chosen for the strongest DMMP band which is interference-free from H2O and CO2. The main system parameters, including the laser excitation power, the gas pressure, and the modulation frequency, were optimized. Finally, the sensor linearity was verified in the range of 0 ? 1.5 ppm and a minimum detection limit of 6 ppb at an integration time of 300 ms was achieved. We detected 500 ppb DMMP with real outdoor air as the carrier gas and obtained the same signal amplitude as

that with zero air as the carrier gas, which verified the high selectivity of the sensor.

 

參考

Ppb-level mid-IR quartz-enhanced photoacoustic sensor for sarin simulant detection using a T-shaped tuning fork, Sensors & Actuators: B. Chemical 390 (2023) 133937, https://doi.org/10.1016/j.snb.2023.133937

 

 


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