Improved sub-ppm acetone sensing properties of SnO2 nanowire-based sensor by attachment of Co3O4 nanoparticles
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In this article, Co3O4 nanoparticles are attached to SnO2 nanowires, and several samples are synthesized followed by the cycles of Co3 o4 nanoparticle attachment process.Abstract:
Co3O4 nanoparticle-attached SnO2 nanowires are synthesized to fabricate highly sensitive acetone gas sensor by vapor-liquid-solid (VLS), sol-gel, and thermal annealing processes. To analyze enhanced acetone gas sensing responses, Co3O4 nanoparticles are attached SnO2 nanowires, and several samples are synthesized followed by the cycles of Co3O4 nanoparticle attachment process. The sensing response of Co3O4 nanoparticle-attached SnO2 nanowires, which are one time performed Co3O4 nanoparticle attachment process, is improved by 7 times compared with as-synthesized SnO2 nanowires when exposed to 50 ppm acetone gas. In particular, when exposed to 0.5 ppm acetone gas, as-synthesized SnO2 nanowires present an extremely low response — close to negligible. However, when Co3O4 nanoparticles are attached, the response is improved drastically. Furthermore, the sensing selectivity toward acetone gas is improved compared with its counterpart. This improved sensing property is derived from the increasing variation in the surface depletion area located in the p-n heterojunction.read more
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Bimetal PdAu decorated SnO2 nanosheets based gas sensor with temperature-dependent dual selectivity for detecting formaldehyde and acetone
TL;DR: In this article, the PdAu/SnO2 sensor can not only effectively detect acetone at 250 °C with response of 6.6 to 2 ppm acetone, but also detect formaldehyde at 110 Ã 0 Ã Ã c with response 4.1-2 Ã 1 Ã 2 Ã ) formaldehyde, and the corresponding detection limit is as low as 45 Ã pb and 30 Ã n Ã
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Superior acetone gas sensor based on electrospun SnO2 nanofibers by Rh doping
Xueying Kou,Ning Xie,Fang Chen,Tianshuang Wang,Lanlan Guo,Chong Wang,Qingji Wang,Jian Ma,Yanfeng Sun,Hong Zhang,Geyu Lu +10 more
TL;DR: In this paper, the gas sensing properties of these nanofibers were investigated systematically, and the results indicated that the response to 50ppm acetone of 0.5 mol% Rh-doped SnO2 nanofibrers was 60.6, which was 9.6 times higher than that of undoped nanofiber.
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