Au- ZnFe 2 O 4 hollow microspheres based gas sensor for detecting the mustard gas simulant 2-chloroethyl ethyl sulfide

Mustard gas, a representative of blister agents, poses a severe threat to human health. Although the structure of 2-chloroethyl ethyl sulfide (2-CEES) is similar to mustard gas, 2-CEES is non-toxic, rendering it a commonly employed simulant in related research. ZnFe O -based semiconductor gas sensor...

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Published in:Analytical sciences 2024-08, Vol.40 (8), p.1409
Main Authors: Yang, Junchao, Qin, Molin, Pan, Yong, Yang, Liu, Wei, Jianan, Yan, CanCan, Zhang, Genwei, Cao, Shuya, Huang, Qibin
Format: Article
Language:English
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Summary:Mustard gas, a representative of blister agents, poses a severe threat to human health. Although the structure of 2-chloroethyl ethyl sulfide (2-CEES) is similar to mustard gas, 2-CEES is non-toxic, rendering it a commonly employed simulant in related research. ZnFe O -based semiconductor gas sensors exhibit numerous advantages, including structural stability, high sensitivities, and easy miniaturization. However, they exhibit insufficient sensitivity at low concentrations and require high operating temperatures. Owing to the effect of electronic and chemical sensitization, the gas-sensing performance of a sensor may be remarkably enhanced via the sensitization method of noble metal loading. In this study, based on the morphologies of ZnFe O hollow microspheres, a solvothermal method was adopted to realize different levels of Au loading. Toward 1 ppm of 2-CEES, the gas sensor based on 2 wt.% Au-loaded ZnFe O hollow microspheres exhibited a response sensitivity twice that of the gas sensor based on pure ZnFe O ; furthermore, the response/recovery times decreased. Additionally, the sensor displayed excellent linear response to low concentrations of 2-CEES, outstanding selectivity in the presence of several common volatile organic compounds, and good repeatability, as well as long-term stability. The Au-loaded ZnFe O -based sensor has considerable potential for use in detecting toxic chemical agents and their simulants.
ISSN:1348-2246
DOI:10.1007/s44211-024-00573-z