为优化薄膜的气敏特性提供了参考。
It may serve as a reference to optimize thin film sensitive characteristics.
本文介绍离子注入技术对气敏材料表面层组分、结构、电导率及气敏特性进行改性的研究进展。
In this paper we introduce the researches on ion implantation. modification of surface layer composition, construction, conductivity and gas sensitive characterization of gas sensitive materials.
对纳米氧化钨薄膜的电致变色、气敏特性等性质研究现状作了简要概述,提出了纳米氧化钨薄膜的发展前景。
The study status on electric metachromatism and gas sensibility of nanometric WO_3 thin film is briefly described. The developing trends of nanometric film are also put forward.
提出了一种能改善气敏元件性能的新型取样电路,并对取样电路的特性作了理论分析和实验对比。
A new sample circuit is proposed in this paper to improve the properties of gas sensor, and the properties of sample circuits are analysed theoretically and compared experimentally.
可利用空气中电阻温度特性提供的信息改性或发现新的气敏材料。
The information provided by the temperature properties of resistance in the air can be used to modify and explore new gas sensitive materials.
以它为基体材料制备乙醇气敏元件,对其电阻随乙醇气浓度变化的特性进行了讨论。
It is also discussed that the characteristics of the change of resistance of the ethanol gas sensor based on this material with the change of the concentration of the ethanol gas.
两者都具有良好的导电、光电和气敏等特性,被广泛应用在气敏传感器、紫外光探测仪、催化剂和电池领域的电极材料等方面。
Both ZnO and CuO are applied on gas sensors, UV light detection, catalyst and electrode materials in batteries for their good physic properties, such as conductive, photoelectric and so on.
两者都具有良好的导电、光电和气敏等特性,被广泛应用在气敏传感器、紫外光探测仪、催化剂和电池领域的电极材料等方面。
Both ZnO and CuO are applied on gas sensors, UV light detection, catalyst and electrode materials in batteries for their good physic properties, such as conductive, photoelectric and so on.
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