Research on cluster hollow fiber membrane proton transfer reaction mass spectrometry (CHFM-PTR-MS) and its application in odorous gas detection.

IF 3.6 3区化学 Q2 CHEMISTRY, ANALYTICAL

Analyst Pub Date : 2025-04-09 DOI:10.1039/d5an00084j

Feiyang Sun, Xun Bao, Qiangling Zhang, Jie Jin, Qian Xia, Kexin Gu, Qu Liang, Wei Xu, Xue Zou, Chaoqun Huang, Chengyin Shen, Yannan Chu

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Abstract

Odorous gas emission is one of the world's seven major public nuisances, easily causing disturbances and complaints, and posing a threat to air quality and public health. Emissions of odorous substances are characterized by their sudden and instantaneous nature, with some odorous compounds having extremely low olfactory thresholds. Therefore, it is essential to develop highly sensitive on-site rapid detection techniques. This paper presents a new technology that combines a cluster hollow fiber membrane (CHFM) with mobile proton transfer reaction mass spectrometry (PTR-MS), developing a cluster hollow fiber membrane-proton transfer reaction mass spectrometry (CHFM-PTR-MS) technique. Due to the large membrane area (1000 cm²) of the cluster hollow fiber membrane module, the CHFM-PTR-MS shows improved sensitivity for eight tested odorous substances by 7.6 to 12.2 times and an enhanced limit of detection by 6.7 to 12.4 times compared to traditional direct-injection PTR-MS. Through a 28-hour continuous monitoring experiment of odorous gases released from household waste, the capability of the new CHFM-PTR-MS technology for on-site rapid detection of trace odorous organic compounds was verified. The CHFM-PTR-MS is expected to provide a new technique and device for on-site rapid detection of odorous organic compounds with high sensitivity.

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