Laser spectroscopy of jet-cooled chlorinated aromatic hydrocarbons

International Laser Science Conference Pub Date : 2008-06-04 DOI:10.1063/1.36871

E. Rohlfing, D. Chandler

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Abstract

The ultrasensitive and isomerically selective detection of chlorinated aromatic hydrocarbons is currently a problem of particular concern due to the toxic and/or carcinogenic nature of these species and their widespread presence in the environment. In this work laser-induced fluorescence and resonantly enhanced multi photon ionization (REMPI) are applied to a series of mono- and dichloronaphthalenes that are rotationally cooled in a free jet expansion. Both techniques provide isomeric selectivity in the S1-S0 spectral region; however 1 + 2 REMPI is more sensitive. In the REMPI spectra of the dichloronapthalenes (DCNs) the S1-S0 origins of different positional isomers are separated by as much as 424 cm-1. Low resolution time-of-flight (TOF) mass spectra of the DCNs show the REMPI ion fragmentation pattern to be isomer dependent. The additional selectivity that isomer-dependent frag mentation provides is demonstrated by the different relative intensities observed in the parent and fragment ion REMPI spectra of a three-component DCN mixture. Possible extensions of the REMPI technique, including two-color, 1 + 1 REMPI for enhanced sensitivity and high-resolution TOF mass spectrometry for enhanced isomeric selectivy, are discussed.

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射流冷却氯化芳烃的激光光谱

由于这些物种的毒性和/或致癌性及其在环境中的广泛存在，氯化芳烃的超灵敏和异构选择性检测目前是一个特别关注的问题。在这项工作中，激光诱导荧光和共振增强多光子电离(REMPI)应用于一系列在自由射流膨胀中旋转冷却的单氯萘和二氯萘。这两种技术在S1-S0光谱区域提供了同分异构体选择性;但1 + 2 REMPI更敏感。在二氯萘(DCNs)的REMPI光谱中，不同位置同分异构体的s1 - 0起源之间的距离高达424 cm-1。低分辨率飞行时间(TOF)质谱显示，REMPI离子碎片模式依赖于同分异构体。在三组分DCN混合物的母离子和碎片离子REMPI光谱中观察到的不同相对强度证明了异质依赖片段提供的额外选择性。讨论了REMPI技术的可能扩展，包括增强灵敏度的双色，1 + 1 REMPI和增强异构体选择性的高分辨率TOF质谱。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Laser Science Conference

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