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Sensors (Basel)


Title:Planar Indium Tin Oxide Heater for Improved Thermal Distribution for Metal Oxide Micromachined Gas Sensors
Author(s):Cakir MC; Caliskan D; Butun B; Ozbay E;
Address:"Nanotechnology Research Center, Bilkent University, Ankara 06800, Turkey. ccakir@bilkent.edu.tr. Department of Nanotechnology and Nanomedicine, Hacettepe University, Ankara 06800, Turkey. ccakir@bilkent.edu.tr. Nanotechnology Research Center, Bilkent University, Ankara 06800, Turkey. dcaliskan@fen.bilkent.edu.tr. Nanotechnology Research Center, Bilkent University, Ankara 06800, Turkey. bbtn@bilkent.edu.tr. Nanotechnology Research Center, Bilkent University, Ankara 06800, Turkey. ozbay@bilkent.edu.tr. Department of Electrical and Electronics Engineering, Department of Physics, Bilkent University, Ankara 06800, Turkey. ozbay@bilkent.edu.tr"
Journal Title:Sensors (Basel)
Year:2016
Volume:20160929
Issue:10
Page Number: -
DOI: 10.3390/s16101612
ISSN/ISBN:1424-8220 (Electronic) 1424-8220 (Linking)
Abstract:"Metal oxide gas sensors with integrated micro-hotplate structures are widely used in the industry and they are still being investigated and developed. Metal oxide gas sensors have the advantage of being sensitive to a wide range of organic and inorganic volatile compounds, although they lack selectivity. To introduce selectivity, the operating temperature of a single sensor is swept, and the measurements are fed to a discriminating algorithm. The efficiency of those data processing methods strongly depends on temperature uniformity across the active area of the sensor. To achieve this, hot plate structures with complex resistor geometries have been designed and additional heat-spreading structures have been introduced. In this work we designed and fabricated a metal oxide gas sensor integrated with a simple square planar indium tin oxide (ITO) heating element, by using conventional micromachining and thin-film deposition techniques. Power consumption-dependent surface temperature measurements were performed. A 420 degrees C working temperature was achieved at 120 mW power consumption. Temperature distribution uniformity was measured and a 17 degrees C difference between the hottest and the coldest points of the sensor at an operating temperature of 290 degrees C was achieved. Transient heat-up and cool-down cycle durations are measured as 40 ms and 20 ms, respectively"
Keywords:Heat distribution Indium tin oxide Metal oxide gas sensor Micro hot-plate SnO2;
Notes:"PublisherCakir, M Cihan Caliskan, Deniz Butun, Bayram Ozbay, Ekmel eng Switzerland 2016/10/01 Sensors (Basel). 2016 Sep 29; 16(10):1612. doi: 10.3390/s16101612"

 
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