Chemical Gas Sensor Based on a Flexible Capacitive Microwave Transducer Associated with a Sensitive Carbon Composite Polymer Film

• Published in: Proceedings Vol. 1; no. 4; p. 439
• Main Authors: Bahoumina, Prince, Hallil, Hamida, Lachaud, Jean-Luc L, Abdelghani, Aymen, Frigui, Kamel, Bila, Stéphane, Baillargeat, Dominique, Zhang, Qing, Coquet, Phillipe, Paragua, Carlos, Pichonat, Emmanuelle, Happy, Henri, Rebière, Dominique, Dejous, Corinne
• Format: Journal Article
• Language: English
• Published: MDPI 03.09.2017; MDPI AG
• Series: Proceedings of Eurosensors 2017
• Subjects: carbon materials; chemical gas sensor; electromagnetic transduction; Engineering Sciences; flexible substrate; inkjet printing; Instrumentation and Detectors; Micro and nanotechnologies; Microelectronics; microwave device; Physics; resonator; carbon materials; flexible substrate; resonator; electromagnetic transduction; inkjet printing; microwave device; chemical gas sensor
• ISSN: 2504-3900; 2504-3900
• DOI: 10.3390/proceedings1040439

This communication presents results on the feasibility of an inkjet printed chemical gas sensor suitable for a real time multi-sensing platform. The prototype targets volatile organic compounds (VOCs) such as ethanol vapor to monitor environmental pollution. The designed and ink-jet printed microwave sensor is presented. Preliminary results have shown the influence of ethanol vapor on the electrical properties of the sensor at microwave frequency range. The sensor's sensitivity to ethanol vapor has been estimated to-2.48 kHz/ppm. The final aim of this work is to develop a low cost sensor for Internet of Things (IoT) applications.