Download This PaperUltra-Fast Detection and Monitoring of Cancerous Volatile Organic Compounds in Environment Using Graphene Oxide Modified CNT Aerogel Hybrid Gas Sensor
30 Pages Posted: 27 Jun 2022
Abstract
Ultra-fast detection of cancerous volatile organic compounds (VOCs) by carbon nanotube aerogel (CNT aerogel)-graphene oxide (GO) hybrid network has been studied in this paper. VOCs, especially non-polar compounds having benzene base structures, are known for their carcinogenic effect on humans; therefore, their detection and monitoring in environment are essential. In our laboratory homogenous GO solution was drop cast on CNT aerogel film, both developed in-house, to obtain the CNT aerogel-GO composite. The CNT aerogel contains multi-directional porous CNT webs providing a stable and compact platform for GO adsorption. The loading percentage of GO with varying O/C ratios was optimized to obtain a highly sensitive CNT aerogel-GO hybrid sensor. The hybrid sensor could detect a range of non-polar VOCs like benzene, hexane, toluene, cyclohexane, and chlorobenzene with a limit of detection around 70 ppb. The optimized CNT aerogel-GO hybrid sensor showed 3 times better sensing performance than the bare CNT aerogel sensor. It is concluded that the concomitant formation of the CNT-GO junction can achieve better interaction and charge transfer during hybrid sensor fabrication. Subsequently, a sensitive, fast and durable CNT aerogel-GO hybrid sensor can be obtained for detection and continuous monitoring of cancerous VOCs.
Keywords: Volatile organic compound, CNT aerogel, Graphene oxide, Chemi-resistance, Microscopy
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