POTENTIOMETRIC OXYGEN SENSOR WITH SOLID STATE REFERENCE ELECTRODE

The concentration or the partial pressure of oxygen in an environment can be determined using different measuring principles. For high temperature measurements of oxygen, ceramic-based sensors are the most practical. They are simple in construction, exploration and maintenance. A typical oxygen potentiometric sensor consists of an oxygen ion conducting solid electrolyte and two electrodes deposited on the two sides of the electrolyte. In this paper different structures of potentiometric oxygen sensors with a solid state reference electrode were fabricated and investigated. The fabricated structures consisted of oxygen ion conducting solid electrolyte from yttria stabilized zirconia, a sensing platinum electrode and nickel-nickel oxide reference electrode. The mixture of nickel-nickel oxide was selected as the reference electrode because it provides reliable electrochemical potential in contact with oxygen conducting electrolyte. To avoid oxidation of nickel the reference electrode is sealed from ambient and the mixture of nickel-nickel oxide was formed electrochemically from nickel oxide after sealing. The effectiveness of the sealing quality and the effectiveness of nickel–nickel oxide mixture formation was investigated by impedance spectroscopy.

[1]  W. C. Maskell,et al.  Progress in the development of zirconia gas sensors , 2000 .

[2]  Prabir K. Dutta,et al.  High temperature zirconia oxygen sensor with sealed metal/metal oxide internal reference , 2007 .

[3]  Janusz Smulko,et al.  Noise measurement set-ups for fluctuations-enhanced gas sensing , 2009 .

[4]  S. Midlam-Mohler,et al.  Ceramic-based chemical sensors, probes and field-tests in automobile engines , 2003 .

[5]  Subhash C. Singhal,et al.  Design, fabrication and characterization of a miniaturized series-connected potentiometric oxygen sensor , 2005 .

[6]  Prabir K. Dutta,et al.  High‐Temperature Ceramic Gas Sensors: A Review , 2006 .

[7]  Albert Cirera,et al.  YSZ-Based Oxygen Sensors and the Use of Nanomaterials: A Review from Classical Models to Current Trends , 2009, J. Sensors.

[8]  Werner Weppner,et al.  Solid-state electrochemical gas sensors☆ , 1987 .

[9]  Lu Xuchen,et al.  Preparation of nano-structured Pt–YSZ composite and its application in oxygen potentiometric sensor , 2011 .

[10]  Sheikh A. Akbar,et al.  A Rugged Oxygen Gas Sensor with Solid Reference for High Temperature Applications , 2001 .

[11]  Anna Strzelczyk,et al.  Efficiency of Linear and Non-Linear Classifiers for Gas Identification from Electrocatalytic Gas Sensor , 2013 .

[12]  Turgut M. Gür,et al.  Miniature Nerstian Oxygen Sensor for Deposition and Growth Environments , 2001 .

[13]  J. Fouletier,et al.  Measurement and regulation of oxygen content in gases using solid electrolyte cells. III. Oxygen pump-gauge , 1975 .

[14]  P. Jasi Ski Solid-state electrochemical gas sensors , 2006 .

[15]  Mohieddine Benammar,et al.  A novel miniature zirconia gas sensor with pseudo-reference: Amperometric operation providing unambiguous determination of air-to-fuel ratio , 1993 .

[16]  Hiroyuki Kaneko,et al.  Performance of a miniature zirconia oxygen sensor with a Pd–PdO internal reference , 2005 .

[17]  Mogens Bjerg Mogensen,et al.  Improved Internal Reference Oxygen Sensors with Composite Ceramic Electrodes , 2012 .

[18]  W. C. Maskell,et al.  Solid state potentiometric oxygen gas sensors , 1986 .