本文介绍了电化学co传感器气敏电极催化活性降低的原因及其改善措施。
The cause that induces low catalytic activity of gas-sensitive electrode of electrochemical CO sensors and its improvement measures have been presented in this paper.
通过交流和直流反应溅射,我们以硅基片(表面上有白金加热电极)为基底制作H_2S气敏元件。
Through the technology of RF and DC reactive sputtering manufacture, H2S gas sensors have been developed on silicon substrate on which a heater made of Pt were attached.
由于加热电阻和电极及气敏层紧密的依次附着在隔热性能优异的衬底上,使得本发明的加热电阻的功耗明显降低。
And the heating resistance, electrodes and gas sensitive layer are tightly contacted on the liner with better thermal insulation ability to reduce the power consumption of the heating resistance.
适用于多层布线作细线导体,也适用于气敏传感器作电极和电极引线的焊接材料。
Applicable for thin multi-layer wiring conductor, also apply to gas sensors for welding electrodes and electrode-lead material.
研究了浆料制备和敏感膜热处理工艺及不同电极材料对氧化钨纳米线敏感膜气敏性能的影响。
The influence of slurry preparation, sintering process and electrode materials on the gas sensing properties of nanowires sensing film has been investigated in detail.
PC-Au - 4910金导体浆料适用于多层布线作细线导体,也适用于气敏传感器作电极和电极引线的焊接材料。
PC-Au-4910 gold conductor paste suitable for thin multi-layer wiring conductor, also apply to gas sensors for welding electrodes and electrode-lead material.
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.
应用推荐