Fabrication of a Handheld Gadget for Breath Alcohol Detection Based on CuO-Decorated Fe2O3 Nanoflakes

In this article, a handheld gadget for breath alcohol detection was developed. The proposed device was based on CuO-decorated Fe2O3 nanoflakes (NFs). A miniaturized platinum micro-heater was integrated into the sensor substrate, already equipped with the interdigitated electrodes (IDEs). The heater was calibrated by applying different voltages to provide the desired temperatures. For decoration of CuO nanoparticles (NPs) on Fe2O3 NFs, different thicknesses of Cu thin films were deposited on the Fe2O3 NFs using dc magnetron sputtering, and by subsequent annealing, CuO as isolated NPs were decorated on Fe2O3 NFs. The sensing results showed that the decoration of CuO NPs led to an improvement in the sensing properties of the gas sensor. The gas sensor can be powered by foldable solar panels or mains electricity. The proposed gas sensor was able to wirelessly send the sensing results to the smartphone where the operator could monitor the changes in the gas sensor response in real-time. The optimal gas sensor showed a response of 10-100 ppm ethanol at 250 degrees C and the response and recovery times were 12 and 57 s, respectively. Hence, relatively fast response time, high response, good repeatability, and selectivity of optimal gas sensors make it a suitable candidate for alcohol sensing applications.

Automated summary

In this article, a handheld breath alcohol detection device based on CuO-decorated Fe2O3 nanoflakes (NFs) was developed. The device integrated a miniaturized platinum micro-heater and interdigitated electrodes (IDEs) on the sensor substrate. CuO nanoparticles (NPs) were decorated on Fe2O3 NFs, improving the sensing properties of the gas sensor. The optimal gas sensor showed a response of 10-100 ppm ethanol at 250 degrees C with a response time of 12 seconds and a recovery time of 57 seconds.