Quantitative analysis of benzene, toluene, and m-xylene with the use of a UV–ion mobility spectrometer

S. Sielemann, J. Baumbach, H. Schmidt, P. Pilzecker
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引用次数: 42

Abstract

An ion mobility spectrometer (IMS) equipped with a 10.6 eV low-pressure gas-discharge lamp usually used in photoionization detectors for gas chromatographic applications was developed for the continuous detection of benzene, toluene, and m-xylene. To improve the resolution of the IMS for single substances a customized IMS with a doubled drift tube length was built. The responses of both IMS (drift tube lengths of 6 and 12 cm) to the compounds selected were determined and compared. The advantages of the combination of multi-capillary columns with IMS are discussed with the aim of achieving further enhancements to the resolution of the instrument. This coupling leads to a significant increase in the scope of application of ion mobility spectrometry for environmental applications. The influence of intermolecular charge-transfer reactions on the peak can be reduced and more complex matrices considered. The presented three-dimensional correlation supports the interpretation of the spectra acquired from the mixtures. © 2000 John Wiley & Sons, Inc. Field Analyt Chem Technol 4: 157–169, 2000
使用紫外离子迁移谱仪对苯、甲苯和间二甲苯进行定量分析
研制了一种配备10.6 eV低压气体放电灯的离子迁移谱仪(IMS),用于气相色谱中苯、甲苯和间二甲苯的连续检测。为了提高IMS对单一物质的分辨率,设计了一种双漂移管长度的定制IMS。测定并比较了两种IMS(漂移管长度分别为6 cm和12 cm)对所选化合物的响应。讨论了多毛细管柱与IMS相结合的优点,进一步提高了仪器的分辨率。这种耦合导致离子迁移率光谱法在环境应用中的应用范围显著增加。可以减少分子间电荷转移反应对峰的影响,并考虑更复杂的矩阵。所提出的三维相关性支持了从混合物中获得的光谱的解释。©2000 John Wiley & Sons, Inc化学工程学报(自然科学版),2000
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