Publication detail

Thick-Film WO3 and SnO2 Based Sensors for Gasses Detection

PRÁŠEK, J. HUBÁLEK, J. MALYSZ, K.

Original Title

Thick-Film WO3 and SnO2 Based Sensors for Gasses Detection

English Title

Thick-Film WO3 and SnO2 Based Sensors for Gasses Detection

Type

conference paper

Language

en

Original Abstract

This paper describes gas sensitive properties of gas sensitive thick-film semiconducting sensors based on WO3 and SnO2. The sensor is two-side designed. One side contains heater and temperature sensor and the second contains electrodes. The electrodes are reprinted by the semiconducting active layer based on oxides of metal. The composition of the active printed ink was prepared ourselves to assure good properties as adherence, porosity etc. Sensors were measured in several gases with excellent selectivity for NO2 and Ethanol.

English abstract

This paper describes gas sensitive properties of gas sensitive thick-film semiconducting sensors based on WO3 and SnO2. The sensor is two-side designed. One side contains heater and temperature sensor and the second contains electrodes. The electrodes are reprinted by the semiconducting active layer based on oxides of metal. The composition of the active printed ink was prepared ourselves to assure good properties as adherence, porosity etc. Sensors were measured in several gases with excellent selectivity for NO2 and Ethanol.

Released

16.10.2006

Publisher

Chania, Crete Institute of Technology, Greece

Location

Chania, Crete , Greece

ISBN

960-8025-99-8

Book

Socrates International Conference. Electronic System Design 2006

Edition number

první

Pages from

23

Pages to

26

Pages count

4

BibTex


@inproceedings{BUT25097,
  author="Jan {Prášek} and Jaromír {Hubálek} and Karel {Malysz}",
  title="Thick-Film WO3 and SnO2 Based Sensors for Gasses Detection",
  annote="This paper describes gas sensitive properties of gas sensitive thick-film semiconducting sensors based on WO3 and SnO2. The sensor is two-side designed. One side contains heater and temperature sensor and the second contains electrodes. The electrodes are reprinted by the semiconducting active layer based on oxides of metal. The composition of the active printed ink was prepared ourselves to assure good properties as adherence, porosity etc. Sensors were measured in several gases with excellent selectivity for NO2 and Ethanol.",
  address="Chania, Crete Institute of Technology, Greece",
  booktitle="Socrates International Conference. Electronic System Design 2006",
  chapter="25097",
  institution="Chania, Crete Institute of Technology, Greece",
  year="2006",
  month="october",
  pages="23",
  publisher="Chania, Crete Institute of Technology, Greece",
  type="conference paper"
}