Abstract
Intrinsically semiconducting oxide materials offer the possibility for highly sensitive direct thermoelectric gas sensors. Intrinsic α-Fe 2O 3 has been chosen as a well suited candidate for direct thermoelectric gas sensors. The band gap of α-Fe 2O 3 is relatively low for an oxide material (2.2 eV). The intrinsic behavior is present for temperatures above 400 °C. The tested direct thermoelectric oxygen sensors were actively heated to the operating temperature at 580 °C. The achieved sensitivity (85 μV K −1 per decade oxygen partial pressure) is about 3 times higher compared to typical conductometric oxygen sensitive materials like SrTiO 3/SrTi 1− x Fe x O 3− δ . The used temperature modulation technique combined with a regression analysis allowed a determination of the measurand thermopower within 6.4 s and the possibility for self-diagnostics. These presented results show a possible realization of fast, accurate, highly sensitive direct thermoelectric gas sensors.
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