Energy, environmental and social issues drive towards the green political economy and the development of advanced technologies, promoting renewable energy sources, improving energy conversion efficiency and reducing exhaust gas emissions. The development of sustainable technologies requires strategic research in the area of gas sensors for monitoring air quality, controlling gas emissions and optimizing combustion processes. Solid state sensors are the most attractive one because of their simplicity in function, small size and low cost. The aim of this work is to synthetize and characterize strontium titanate and test its sensing performance. The prepared sensor device shows significant sensitivity and response rate at room-temperature. However, because of the low recovery rate, the regeneration of the sensor has to be made at high temperature for promoting the decomposition of the carbonates formed on the perovkite surface.
Low-Temperature capacitive sensor based on perovskite oxides / Zaza, Fabio; Orio, G.; Serra, E.; Caprioli, F.; Pasquali, Mauro. - STAMPA. - 1667:(2015), p. 020004. (Intervento presentato al convegno NANOFORUM 2014 tenutosi a ita nel 2014) [10.1063/1.4922560].
Low-Temperature capacitive sensor based on perovskite oxides
ZAZA, FABIO;PASQUALI, Mauro
2015
Abstract
Energy, environmental and social issues drive towards the green political economy and the development of advanced technologies, promoting renewable energy sources, improving energy conversion efficiency and reducing exhaust gas emissions. The development of sustainable technologies requires strategic research in the area of gas sensors for monitoring air quality, controlling gas emissions and optimizing combustion processes. Solid state sensors are the most attractive one because of their simplicity in function, small size and low cost. The aim of this work is to synthetize and characterize strontium titanate and test its sensing performance. The prepared sensor device shows significant sensitivity and response rate at room-temperature. However, because of the low recovery rate, the regeneration of the sensor has to be made at high temperature for promoting the decomposition of the carbonates formed on the perovkite surface.File | Dimensione | Formato | |
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97) AIP Conf Proc 1667 020004 (2015) Zaza2.pdf
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