OXYGEN SENSOR WITH ADVANCED OXIDE ELECTRODE MATERIALS

Publications

Share / Export Citation / Email / Print / Text size:

International Journal on Smart Sensing and Intelligent Systems

Professor Subhas Chandra Mukhopadhyay

Exeley Inc. (New York)

Subject: Computational Science & Engineering, Engineering, Electrical & Electronic

GET ALERTS

eISSN: 1178-5608

DESCRIPTION

11
Reader(s)
16
Visit(s)
0
Comment(s)
0
Share(s)

VOLUME 5 , ISSUE 1 (March 2012) > List of articles

OXYGEN SENSOR WITH ADVANCED OXIDE ELECTRODE MATERIALS

P. Shuk * / R. Jantz / H.-U. Guth

Keywords : oxygen concentration measurements, potentiometric gas sensor, oxide electrode, perovskite structure, rare earth manganite electrode, combustion application.

Citation Information : International Journal on Smart Sensing and Intelligent Systems. Volume 5, Issue 1, Pages 233-245, DOI: https://doi.org/10.21307/ijssis-2017-479

License : (CC BY-NC-ND 4.0)

Received Date : 15-February-2012 / Accepted: 23-February-2012 / Published Online: 01-March-2012

ARTICLE

ABSTRACT

Calcium doped lanthanum and yttrium manganite electrode materials with oxygen deficiency and low polarization resistance (<30W*cm2 at 600°C) were tested in new advanced electrochemical sensor for the oxygen measurements. Oxygen sensor with oxide electrodes was showing fast response (t95~5s at 600°C), good reproducibility (±0.04% O2) and long term stability at different oxygen concentration.

Content not available PDF Share

FIGURES & TABLES

REFERENCES

[1] H. Peters, H.-H. Möbius, “Procedure for the gas analysis at elevated temperatures using
galvanic solid electrolyte elements”, DD-Patent 21673, August 1961.
[2] J. Weissbart, R. Ruka, „Oxygen gauge“, Rev. Sci. Instrum., vol. 32, pp. 593-595, May
1961.
[3] H.-H. Möbius, “Solid state electrochemical potentiometric sensors for gas analysis”, in
Sensors a comprehensive survey, vol. 3, W. Göpel, J. Hesse, J. N. Zemel, Eds. New York: VCH,
pp. 1105-1154, 1992.
[4] W. C. Maskell, “Progress in the development of zirconia gas sensors”, Solid State Ionics,
vol. 134, p. 43-50, January 2000.
[5] S. Zhuiykov, Electrochemistry of zirconia gas sensors, Boca Raton/London/New York:
CRC Press, 2008.
[6] P. Shuk, “Process Zirconia Oxygen Analyzer: State of Art”, Technisches Messen, vol. 77,
No 1, pp. 19-23, January 2010.
[7] L.G. Tejuca, J.L.G. Fierro, Properties and applications of perovskite-type oxides, New
York: Marcel Dekker, 1993.
[8] P. Shuk, “Contribution to the noble metal free electrochemical cells development”,
Habilitationscript, Greifswald University, Germany, December 1992.
[9] P. Shuk, A. Vecher, V. Kharton, L. Tichonova, H.-D. Wiemhöfer, U. Guth, W. Göpel,
“Electrodes for oxygen sensors based on rare earth manganites and cobaltites”, Sensors and
Actuators, vol. B15-B16, pp. 401-405, October 1993.
[10] J.W. Fergus, “Perovskite oxides for semiconductor-based gas sensors”, Sensors and
Actuators, vol. B123, pp. 1169-1179, May 2007.
[11] P. Shuk, L. Tichonova, U. Guth, “Materials for electrodes based on rare earth
manganites”, Solid State Ionics, vol. 68, pp. 177-184, March 1994.
[12] T. Ishihara, Perovskite Oxide for Solid Oxide Fuel Cells, New York: Springer, 2009.
[13] H.U. Anderson, "Review of P type doped perovskite materials for SOFC and other
applications", Solid State Ionics, vol. 52, pp. 33-41, May 1992.
[14] P. Shuk, K. Künstler, W. Richter, U. Guth, L. Tichonova:, “Mixed ionic-electronic
conductors on the basis of calcium doped lanthanum manganites”, in Solid State Phenomena, W.
Bogusz, W. Jakubowski, F. Krok, Eds, Aedermannsdorf: Scitec, vol. 39-40, pp. 103-106, May
1994.
[15] P. Shuk, U. Guth, “Mixed conductive electrode materials for SOFC and oxygen sensors”,
Ionics, vol. 1, pp. 106-111, February 1995.
[16] F. Licci, G.Turilli, P. Ferro, “Determination of mamganese valence in complex La-Mn
perovskites”, J. Magnetism and Magnetic Materials, vol. 164, pp. L268-L272, December 1996.

EXTRA FILES

COMMENTS