研究了一种使用聚合物-碳黑混合物作为敏感膜的新型化学气体传感器。
A novel chemical gas sensor that utilizes polymer-carbon black composition as sensitive film is studied.
为了提高灵敏度、选择性及扩大气体检测组分,化学气体传感器被研究并应用于海洋油气勘查。
In order to improve the sensitivity and selectivity and to increase the detectable gas compositions, the chemical gas sensor is investigated and applied to explore natural gas and oil in sea.
该文以碳粉掺杂的聚合物为敏感膜,以叉指电极为基底制作了测定挥发性有机气体的化学阻抗传感器。
A chemiresistor sensor was fabricated for the analysis of volatile organic compounds(VOCs) with carbon black(CB)-polymer composite as sensing film and interdigital electrodes.
检测方法:气体传感器阵列。研究人员研制出一种设备,它能分析管组织标本中的挥发性化学物质,以此确定样品是否具有癌变性。
Detection: Gas sensor array. Researchers have developed a device that can analyze the volatile chemicals emanating from a tissue specimen tube to determine whether the sample is cancerous.
这种光谱调制传感器系统能够测量多种物理参数,如压强、温度、气体密度及多种化学成份。
The spectral modulation sensor system can detect and measure various physical parameters such as pressure, temperature, gas density, and various chemical species.
这些应用包括压强、温度、气体密度和化学物质传感器等。
The applications are included in the pressure, temperature, gas density, and chemical species sensors.
这也是进一步弄清电化学暂态响应机制及优化多组份气体传感器性能的理论依据。
This is also the theoretical basis for further making clear electrochemical transient response mechanism and optimizing performance of the multi-component gas sensor.
讨论了在SAW气体的传感器中把化学信号(气体浓度)转换成物理信号(SAW相速度变化)的机制以及将它们彼此分离开来的方法。
The conversion mechanisms of a chemical signal (gas concentration) into a physical signal (SAW phase velocity change) in SAW gas sensors and the way to separate them are discussed.
讨论了在SAW气体的传感器中把化学信号(气体浓度)转换成物理信号(SAW相速度变化)的机制以及将它们彼此分离开来的方法。
The conversion mechanisms of a chemical signal (gas concentration) into a physical signal (SAW phase velocity change) in SAW gas sensors and the way to separate them are discussed.
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