Detection of styrene by SAW sensor based on hydrogen-bond acidic polymer

2013 IEEE SENSORS Pub Date : 2013-12-19 DOI:10.1109/ICSENS.2013.6688184
Yang Wang, Xiaosong Du, Yin Long, Yi Li, Yadong Jiang
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Abstract

In this paper, a surface acoustic wave (SAW) sensor coated with a hydrogen-bond acidic (HBA) polymer was introduced to detect styrene vapor. The polymer, PLF, a polysiloxane with a hexafluoroisopropanol functional group was synthesized by hydrosilylation reaction. And subsequently, PLF was dissolved in chloroform, and spray-coated on a 433.92 MHz two-port oscillator SAW device by an airbrush apparatus. Realtime responses of the obtained sensor to styrene vapor and some common interference vapors were studied. High sensitivity and selectivity of the sensor to styrene were demonstrated. The sensitivity was attributed to the OH/π hydrogen bond interaction between PLF and styrene.
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基于氢键酸性聚合物的SAW传感器检测苯乙烯
本文介绍了一种表面声波(SAW)传感器,该传感器包覆了一种氢键酸性(HBA)聚合物,用于检测苯乙烯蒸汽。采用硅氢化反应合成了具有六氟异丙醇官能团的聚硅氧烷聚合物PLF。随后,将PLF溶解在氯仿中,用喷枪装置喷涂在433.92 MHz双端口振荡器SAW器件上。研究了该传感器对苯乙烯蒸气和一些常见干扰蒸气的实时响应。结果表明,该传感器对苯乙烯具有较高的灵敏度和选择性。其灵敏度归因于PLF与苯乙烯之间OH/π氢键的相互作用。
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2013 IEEE SENSORS
2013 IEEE SENSORS
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