Real-time determination of volatile organic compounds (VOCs) by ion molecule reaction – mass spectrometry (IMR-MS)

IF 1.3 4区 工程技术 Q4 CHEMISTRY, ANALYTICAL
H. Chu, Kyoung-Soon Jang, Byung-Hee Choi, Jae Wook Kang, Chae Eun Son, Y. Ahn
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引用次数: 0

Abstract

Abstract Comprehensive analytical validation studies of a developed ion molecule reaction – mass spectrometer (IMR-MS) were undertaken for the real-time determination of volatile organic compounds (VOCs) in air. The instrument was developed with a focus on promoting chemical ionization (CI) in the reaction chamber by direct sample loading and enhancing maintenance efficiency and reliability of the results. Instrument stability was assessed through a system check and pre-performance check process, and consequently, the instrumental and analytical conditions including the plasma generation, pressure, temperature, and flow rate were successfully optimized. Relevant performance characteristics, such as mass resolution, mass detection range, accuracy, and precision were also investigated by VOC standards composed of benzene, toluene, perfluorotoluene, propylbenzene, and octane. To evaluate whether the performance of the technology is comparable to already accepted techniques, the quantitative results of the IMR-MS were compared with those of a commercial mass spectrometer. This evaluation was successful and suggests the applicability of the technology for spillage accidents of hazardous chemicals and identification of odor-causing substances as well as for real-time gas analysis.
离子分子反应-质谱法实时测定挥发性有机化合物
摘要对开发的离子分子反应-质谱仪(IMR-MS)进行了全面的分析验证研究,用于实时测定空气中的挥发性有机化合物(VOCs)。该仪器的开发重点是通过直接加载样品来促进反应室中的化学电离(CI),并提高维护效率和结果的可靠性。通过系统检查和性能前检查过程评估了仪器的稳定性,因此,成功地优化了仪器和分析条件,包括等离子体产生、压力、温度和流速。通过由苯、甲苯、全氟甲苯、丙苯和辛烷组成的VOC标准,研究了相关性能特征,如质量分辨率、质量检测范围、准确度和精密度。为了评估该技术的性能是否与已经接受的技术相当,将IMR-MS的定量结果与商业质谱仪的定量结果进行了比较。该评估是成功的,表明该技术适用于危险化学品泄漏事故、气味物质识别以及实时气体分析。
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来源期刊
Instrumentation Science & Technology
Instrumentation Science & Technology 工程技术-分析化学
CiteScore
3.50
自引率
0.00%
发文量
45
审稿时长
>12 weeks
期刊介绍: Instrumentation Science & Technology is an internationally acclaimed forum for fast publication of critical, peer reviewed manuscripts dealing with innovative instrument design and applications in chemistry, physics biotechnology and environmental science. Particular attention is given to state-of-the-art developments and their rapid communication to the scientific community. Emphasis is on modern instrumental concepts, though not exclusively, including detectors, sensors, data acquisition and processing, instrument control, chromatography, electrochemistry, spectroscopy of all types, electrophoresis, radiometry, relaxation methods, thermal analysis, physical property measurements, surface physics, membrane technology, microcomputer design, chip-based processes, and more. Readership includes everyone who uses instrumental techniques to conduct their research and development. They are chemists (organic, inorganic, physical, analytical, nuclear, quality control) biochemists, biotechnologists, engineers, and physicists in all of the instrumental disciplines mentioned above, in both the laboratory and chemical production environments. The journal is an important resource of instrument design and applications data.
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