基于质量和电导率测量的新型高选择性微气体传感器

Proceedings IEEE Thirteenth Annual International Conference on Micro Electro Mechanical Systems (Cat. No.00CH36308) Pub Date : 2000-01-23 DOI:10.1109/MEMSYS.2000.838499

T. Xu, Guoying Wu, Guobing Zhang, Wei Wang, Ting Li

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引用次数: 5

摘要

提出了一种基于质量和电导率测量的新型微型气体传感器。该传感技术可以有效地提高气敏膜对被测气体的选择性。根据原子的电荷质量比可以识别原子的化学原理，我们提出了通过测量气体分子的电荷质量比可以获得对被检测气体的高选择性的想法。为了实现这个想法，我们设计了一个传感器，可以同时测量被检测气体分子的电荷和质量，只有一个设备。从而可以得到被检测气体分子的电荷质量比。对传感器的结构进行了设计、仿真和优化。并介绍了其制作过程和原型实验。

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A novel micro gas sensor with high selectivity based on both mass and conductivity measurement

A novel micro gas sensor based on both mass and conductivity measurement is presented. The sensing technique can efficiently improve the selectivity of gas-sensitive films to the detected gas. Consulting the chemical principle that an atom can be identified by its charge-mass ratio, we present an idea that the high selectivity to the detected gas can be obtained through measuring the charge-mass ratio of the gas molecule. To actualize the idea, we designed a sensor that can measure both charge and mass of the detected gas molecules only by one device at the same time. Thereby, the charge-mass ratio of the detected gas molecule can be obtained. The structure of the sensor was designed, simulated and optimized. The fabrication process and a prototype experiment are also presented.

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Proceedings IEEE Thirteenth Annual International Conference on Micro Electro Mechanical Systems (Cat. No.00CH36308)

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