Resistive gas sensors – Perspectives on selectivity and sensitivity improvement

Janusz Smulko; Maciej Trawka; Umut Cindemir; Claes Goran Granqvist; Cristhian Duran

Resistive gas sensors – Perspectives on selectivity and sensitivity improvement

Abstrakt

Resistive gas sensors are very popular and relatively inexpensive; they can operate at elevated or room temperature for years on end. The main disadvantage of resistive gas sensors is their limited selectivity and sensitivity, but various methods have been applied to improve their behavior. The composition of the porous gas sensing layer, or changes in the sensor’s operating temperature, can enhance the gas detection ability. Furthermore, emerging technologies can increase the area of the active surface and advance the sensors’ sensitivity as well. Another improvement can be reached by employing low-frequency resistance fluctuations rather than DC resistance alone. That technique, called fluctuation enhanced sensing (FES), was developed about two decades ago and has been investigated with regard to different gas sensing layers. The present paper gives an overview over various experimental results and confirms improved gas detection and elucidates practical aspects connected with the FES method.

Autorzy (5)

Janusz Smulko prof. dr hab. inż.
Maciej Trawka dr inż.
Umut Cindemir
- Uppsala University, Sweden Department of Engineering Sciences
Claes Goran Granqvist
- Uppsala University, Sweden Department of Engineering Sciences
Cristhian Duran
- University of Pamplona, Colombia Department of Electrical, Electronics, Systems and Telecommunications

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Informacje szczegółowe

Kategoria:: Aktywność konferencyjna
Typ:: publikacja w wydawnictwie zbiorowym recenzowanym (także w materiałach konferencyjnych)
Tytuł wydania:: Nanotechnology for Instrumentation and Measurement Workshop, Nanofim 2016 strony 53 - 58
Język:: angielski
Rok wydania:: 2016
Opis bibliograficzny:: Smulko J., Trawka M., Cindemir U., Granqvist C., Duran C.: Resistive gas sensors – Perspectives on selectivity and sensitivity improvement// Nanotechnology for Instrumentation and Measurement Workshop, Nanofim 2016/ : , 2016, s.53-58
Weryfikacja:: Politechnika Gdańska

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