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Maxwell Displacement Current Induced Wireless Self-Powered Gas Sensor Array
31 Pages Posted: 1 Dec 2022 Publication Status: Published
Abstract
Maxwell displacement current induced by triboelectric nanogenerators (TENGs) endows an efficient route in wireless power transmission and self-powered sensing technique. Herein, we invented a Maxwell displacement current motivated wireless self-powered gas sensor array (WSA) for wireless and passive respiratory analysis and exhaust emission monitoring. The as-prepared WSA exhibited a maximum response value of 147% toward 100 ppm NH3 and 87% toward 0.5 ppm NO2, respectively. By combining experimental characterization and finite element analysis, the influence of induction distance and electrode arrangement on the transducing and sensing properties of WSA was systematically investigated. Meanwhile, the prepared WSA possessed good repeatability, selectivity, and long-term stability towards NH3 and NO2. Finally, triggered by the mechanical energy from human respiration and tire rotation, the as-received WSA is capable of actively distinguishing the concentration of exhaled ammonia and vehicle exhaust, illustrating the feasibility in disease prediagnosis and air quality monitoring. This work opens up a new paradigm for self-powered wireless gas detection with attribute of cost effectiveness, multivariable, easy fabrication, and environment friendliness.
Keywords: displacement current, Gas sensor array, Self-powered, Wireless energy transmission, Respiratory analysis
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