化学气体传感器的阻抗测量

The Fourth International Conference on Advanced Semiconductor Devices and Microsystem Pub Date : 2002-12-16 DOI:10.1109/ASDAM.2002.1088532

F. Vysloužil, M. Vrňata, V. Myslík, M. Kovanda, R. Fryček, M. Jelínek

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摘要

该贡献涉及脉冲激光沉积(PLD)技术制备的有源层气体传感器的阻抗测量。利用KrF(波长248 nm)准分子激光，以二氧化锡(SnO/ sub2 /)和乙酰丙酮锡(SnAcAc)为基材进行了沉积。研究了SnO/ sub2 /、SnAcAc、SnAcAc/Pd、SnAcAc/FeAcAc/Pd和SnAcAc/PdAcAc/Pd体系(基础材料/掺杂剂/催化剂)。这些系统的应用是因为它们具有优异的S/sub / dc/灵敏度。主要兴趣集中在以下问题上:测量频率范围为100 Hz至10 MHz的复杂阻抗的实部和虚部，Nyquist图的构造，定义替代相角灵敏度S/sub / pa/(基于相移)。还讨论了S/sub pa/对温度和S/sub pa/对频率的影响。

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Impedance measurements of chemical gas sensors

This contribution deals with impedance measurements of gas sensors with active layers prepared by pulsed laser deposition (PLD) technology. The deposition was carried out from tin dioxide (SnO/sub 2/) and tin acetylacetonate (SnAcAc) - based targets by a KrF (wavelength 248 nm) excimer laser. The following systems were investigated (basic material/dopant/catalyst): SnO/sub 2/, SnAcAc, SnAcAc/Pd,SnAcAc/FeAcAc/Pd and SnAcAc/PdAcAc/Pd. These systems were applied as they exhibit an excellent S/sub dc/ sensitivity. The main interest was focused to following problems: measurement of real and imaginary part of complex impedance for frequencies ranging from 100 Hz to 10 MHz, construction of Nyquist diagrams, definition of an alternative phase-angle sensitivity S/sub pa/ (based on phase shift). The influences of S/sub pa/ vs. temperature and S/sub pa/ vs. frequency are also discussed.

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The Fourth International Conference on Advanced Semiconductor Devices and Microsystem

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