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Methane Detection with a Tungsten‐Calix[4]arene‐Based Conducting Polymer Embedded Sensor Array

Ru‐Qiang Lu, Shao‐Xiong Lennon Luo, Qilin He, Alberto Concellón, Timothy M. Swager

2020Advanced Functional Materials18 citationsDOIOpen Access PDF

Abstract

Abstract The detection of methane is important for industry, environment, and our daily life, but is made challenging by its small size, high volatility, and nonpolar nature. Herein, a tungsten‐capped calix[4]arene‐based p ‐doped conducting polymer with hexafluorophosphate or perchlorate counter‐anions as a transducer is used to detect methane in dry air. The host–guest interaction between calixarene moieties within the polymer chain and methane molecules leads to the resistance variation of the polymer. The experimental limit of detection (LoD) of methane for the polymer‐based sensor is demonstrated to be less than 50 ppm at room temperature, and the extrapolated theoretical LoD of 2 ppm represents exceptional sensitivity to methane. Furthermore, the discrimination of methane from interfering volatile organic compounds is achieved by exploiting a sensor array using complementary chemiresistors and principal component analysis.

Topics & Concepts

MethaneMaterials sciencePolymerTungstenDetection limitHexafluorophosphateChemical engineeringOrganic chemistryIonic liquidChemistryChromatographyComposite materialEngineeringMetallurgyCatalysisLuminescence and Fluorescent MaterialsMolecular Sensors and Ion DetectionGas Sensing Nanomaterials and Sensors
Methane Detection with a Tungsten‐Calix[4]arene‐Based Conducting Polymer Embedded Sensor Array | Litcius