期刊
MATERIALS CHEMISTRY AND PHYSICS
卷 227, 期 -, 页码 148-156出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.matchemphys.2019.02.010
关键词
Gas diffusion theory; SnO2 gas sensor; Au nanoparticle; Ag nanoparticle; Sensor modification
The effect of Ag and Au additives on the optimum operating temperature and response level of thick film SnO2 gas sensors is investigated and compared with the results of pure SnO2 ones. Fabricated samples were examined at various atmospheric conditions and at different operating temperatures (130-400 degrees C). It is shown that compared with pure SnO2 samples, in Ag-SnO2 samples 50 degrees C reduction of operating temperature and 7 times increase of response level is achieved. The achieved modifications are 70 degrees C reductions in operating temperature and 4 times increase of response level for Au-SnO2 samples. In addition to reporting the improving properties of SnO2 samples by adding Ag and Au, the validity of the gas diffusion model was also verified in these metal added samples for the first time. Gas diffusion theory is a comprehensive theory which its validity in resistive gas sensors has been verified by many researchers. The parameters of gas diffusion model were extracted for all fabricated sensors to achieve better understanding of their sensing properties.
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