用电阻式气体传感器分析呼出气体

IF 1 4区工程技术 Q4 INSTRUMENTS & INSTRUMENTATION

Metrology and Measurement Systems Pub Date : 2023-07-20 DOI:10.24425/MMS.2020.131718

T. Chludzinski, A. Kwiatkowski

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引用次数: 6

摘要

几个世纪以来，呼吸分析一直吸引着人类。这是仅利用人类嗅觉检测各种疾病的最简单方法之一。技术的进步使得能够使用基于不同气体传感系统的更可靠和标准化的方法。呼吸分析需要检测浓度低于单个ppm（百万分之一）的挥发性有机化合物。因此，已经提出了先进的检测方法。其中一些方法使用昂贵且体积庞大的设备（如光学传感器、质谱仪），并且需要耗时的分析。电阻式气体传感器精度较低，但价格便宜得多。这些传感器使用多孔材料和吸附-解吸过程，确定其物理参数。我们考虑将电阻式气体传感器应用于呼吸分析的问题。最近的进展得到了强调，表明这些经济的气体传感器可以有效地用于分析呼吸样本。考虑并举例说明了应用电阻式气体传感器的一般问题，这些问题主要与商业传感器及其长期性能有关。考虑并提出了一种呼吸样本采集装置，以指出关键部分和存在的问题。

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Exhaled breath analysis by resistive gas sensors

Breath analysis has attracted human beings for centuries. It was one of the simplest methods to detect various diseases by using human smell sense only. Advances in technology enable to use more reliable and standardized methods, based on different gas sensing systems. Breath analysis requires the detection of volatile organic compounds (VOCs) of the concentrations below individual ppm (parts per million). Therefore, advanced detection methods have been proposed. Some of these methods use expensive and bulky equipment (e.g. optical sensors, mass spectrometry – MS), and require time-consuming analysis. Less accurate, but much cheaper, are resistive gas sensors. These sensors use porous materials and adsorptiondesorption processes, determining their physical parameters. We consider the problems of applying resistive gas sensors to breath analysis. Recent advances were underlined, showing that these economical gas sensors can be efficiently employed to analyse breath samples. General problems of applying resistive gas sensors are considered and illustrated with examples, predominantly related to commercial sensors and their long-term performance. A setup for collection of breath samples is considered and presented to point out the crucial parts and problematic issues.

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来源期刊

Metrology and Measurement Systems INSTRUMENTS & INSTRUMENTATION-

CiteScore

2.00

自引率

10.00%

发文量

审稿时长

6 months

期刊介绍： Contributions are invited on all aspects of the research, development and applications of the measurement science and technology. The list of topics covered includes: theory and general principles of measurement; measurement of physical, chemical and biological quantities; medical measurements; sensors and transducers; measurement data acquisition; measurement signal transmission; processing and data analysis; measurement systems and embedded systems; design, manufacture and evaluation of instruments. The average publication cycle is 6 months.