Sensing of acetone by Al-doped ZnO
2019
Abstract The development of chemoresistive gas sensors for environmental and industrial air monitoring as well as medical breath analysis is investigated. Flame-made ZnO nanoparticles (NPs) doped with 1 at% Aluminum exhibited higher sensing performance ( response 245, response time ~ 3 s, and sensitivity 23 ppm -1 ) than pure ZnO and those made by a hydrothermal method (HT) (56, ~ 12 s, and 4 ppm -1 ) for detection of 10 ppm acetone. Furthermore, their sensing response of ~10 to 0.1 ppm of acetone at 90% RH is superior to other metal oxide sensors and they feature good acetone selectivity to other compounds (including NH 3 , isoprene and CO). Characterization by N 2 adsorption, X-ray photoelectron and UV-vis spectroscopies reveals that the improved sensing performance of flame-made Al-doped ZnO NPs is associated primarily to a higher density of oxygen vacancies than pure ZnO and all HT-made NPs. This leads to a greater number of adsorbed oxygen ions on the surfaces of Al-doped ZnO NPs, which can react with acetone molecules.
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