T. Addabbo, F. Bertocci, A. Fort, M. Mugnaini, S. Rocchi, V. Vignoli
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引用次数: 4
摘要
用于开发气体电导传感器的材料通常是n型半导体,例如SnO2。在过去的几年里,研究了几种用于这种应用的材料表现为p型半导体(例如CuO, Cr2O3, Kor AgHollandites)。在这项工作中,作者提出了一种新的p型,大颗粒,厚膜材料的表面状态模型,特别提到了Kor Ag- Hollandites,它解释了材料在干燥和潮湿的N2以及干燥和潮湿的空气中对CO的响应。从几个角度来看,这种类型的可靠和紧凑的模型具有最大的实用性,包括基于气体传感器的测量系统的发展。能够准确预测传感器行为的仿真工具的可用性使得用仿真代替实验调谐成为可能,并且可以显着加快基于传感器的系统的开发并保证更好的性能。
Surface state model for metal oxide p-type conductometric CO sensors
The materials exploited for the development of gas conductometric sensors are often n-type semiconductors as in the case, e.g., of SnO2. Several materials studied in the last years for this application behave as p-type semiconductors (e.g. CuO, Cr2O3, Kor AgHollandites). In this work the authors present a novel surface state model for p-type, large grained, thick film materials, with a specific reference to Kor Ag- Hollandites, which accounts for the material response to CO in dry and humid N2, and in dry and humid air. A reliable and compact model of this type is of the utmost utility from several points of view, including the development of measurement systems based on gas sensors. The availability of a simulation tool able to accurately predict the sensor behavior enables the replacement of experimental tuning with simulations, and can significantly speed-up sensor-based system development and guarantee better performance.
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