Combined resistive and thermoelectric oxygen sensor with almost temperature-independent characteristics

Bektas, Murat; Stöcker, Thomas; Mergner, Angelika; Hagen, Gunter; Moos, Ralf

doi:https://doi.org/10.5194/jsss-7-289-2018

Articles | Volume 7, issue 1

https://doi.org/10.5194/jsss-7-289-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Sensor/IRS2 2017

https://doi.org/10.5194/jsss-7-289-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 7, issue 1

Regular research article

|

16 Apr 2018

Regular research article |

| 16 Apr 2018

Combined resistive and thermoelectric oxygen sensor with almost temperature-independent characteristics

Murat Bektas, Thomas Stöcker, Angelika Mergner, Gunter Hagen, and Ralf Moos

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May 2018	64	15	3	82
Jun 2018	57	12	3	72
Jul 2018	51	7	2	60
Aug 2018	17	6	1	24
Sep 2018	20	13	0	33
Oct 2018	15	6	6	27
Nov 2018	22	7	1	30
Dec 2018	16	6	1	23
Jan 2019	16	10	2	28
Feb 2019	19	8	2	29
Mar 2019	17	7	1	25
Apr 2019	17	9	2	28
May 2019	25	11	4	40
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Jul 2019	248	9	1	258
Aug 2019	81	11	0	92
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Nov 2020	14	13	2	29
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Feb 2021	15	9	3	27
Mar 2021	13	10	0	23
Apr 2021	13	10	0	23
May 2021	13	14	2	29
Jun 2021	15	4	2	21
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Short summary

We prepared BaFe_(1-x)-0.01Al_0.01Ta_xO_3-δ (BFATx) thick films with x between 0.1 and 0.4 at room temperature using the aerosol deposition method and we measured Seebeck coefficients and conductivities between 600 and 800 °C at different oxygen concentrations. Deposited on a transducer that includes a heater, equipotential layers, and electrode structures, a dual thermoelectric–resistive oxygen sensor with almost temperature-independent characteristics of both measurands was realized using BFAT30.


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Combined resistive and thermoelectric oxygen sensor with almost temperature-independent characteristics

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17 citations as recorded by crossref.