Nicolae Bârsan scite author profile

This paper investigates the effect of water vapour in CO sensing by using Pd doped SnO 2 sensors realized in thick film technology as an example of the basic understanding of sensing mechanisms applied to sensors. The results of phenomenological and spectroscopic measurement techniques, all of them obtained under working conditions for sensors, were combined with modelling in order to derive conclusions able to be generalized to the field of metal oxide based gas sensors. The techniques employed were: dc conductance, ac impedance spectroscopy, work function (by using the Kelvin probe method), catalytic conversion and diffuse reflectance infrared Fourier transform measurements. The most important conclusion is that the different parts of the sensor (sensing layer, electrodes, substrate) are all influencing the gas detection and their role has to be taken into consideration when one attempts to understand how a sensor works.

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Direct formation of highly porous gas-sensing films by in situ thermophoretic deposition of flame-made Pt/SnO2 nanoparticles

Mädler¹,

Roessler²,

Pratsinis³

et al. 2006

Sensors and Actuators B: Chemical

299

359

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Nicolae Bârsan

Untitled

Electronic Nose: Current Status and Future Trends

Metal oxide-based gas sensor research: How to?

Understanding the fundamental principles of metal oxide based gas sensors; the example of CO sensing with SnO₂sensors in the presence of humidity

Direct formation of highly porous gas-sensing films by in situ thermophoretic deposition of flame-made Pt/SnO2 nanoparticles

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About

Nicolae Bârsan

Untitled

Electronic Nose: Current Status and Future Trends

Metal oxide-based gas sensor research: How to?

Understanding the fundamental principles of metal oxide based gas sensors; the example of CO sensing with SnO2sensors in the presence of humidity

Direct formation of highly porous gas-sensing films by in situ thermophoretic deposition of flame-made Pt/SnO2 nanoparticles

Contact Info

Product

Resources

About

Understanding the fundamental principles of metal oxide based gas sensors; the example of CO sensing with SnO₂sensors in the presence of humidity