Development of semiconductor metal oxide gas sensors for the detection of NO2 and H2S gases
Data(s) |
29/03/2014
29/03/2014
01/03/2013
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Resumo |
One of the main challenges in the development of metal-oxide gas sensors is enhancement of selectivity to a particular gas. Currently, two general approaches exist for enhancing the selective properties of sensors. The first one is aimed at preparing a material that is specifically sensitive to one compound and has low or zero cross-sensitivity to other compounds that may be present in the working atmosphere. To do this, the optimal temperature, doping elements, and their concentrations are investigated. Nonetheless, it is usually very difficult to achieve an absolutely selective metal oxide gas sensor in practice. Another approach is based on the preparation of materials for discrimination between several analyte in a mixture. It is impossible to do this by using one sensor signal. Therefore, it is usually done either by modulation of sensor temperature or by using sensor arrays. The present work focus on the characterization of n-type semiconducting metal oxides like Tungsten oxide (WO3), Zinc Oxide (ZnO) and Indium oxide (In2O3) for the gas sensing purpose. For the purpose of gas sensing thick as well as thin films were fabricated. Two different gases, NO2 and H2S gases were selected in order to study the gas sensing behaviour of these metal oxides. To study the problem associated with selectivity the metal oxides were doped with metals and the gas sensing characteristics were investigated. The present thesis is entitled “Development of semiconductor metal oxide gas sensors for the detection of NO2 and H2S gases” and consists of six chapters. Department of instrumentation, Cochin University of Science And Technology Cochin University of Science And Technology |
Identificador | |
Idioma(s) |
en |
Publicador |
Cochin University of Science And Technology |
Palavras-Chave | #Sensors #Chemical Sensor #Gas Sensors #Sensor Fabrication #Pure ZnO #Indium Doped ZnO |
Tipo |
Thesis |