SIRO2 Oxygen sensor publications
The following are the publications describing CSIRO’s work on the development of the SIRO2 Oxygen sensor.
Patents
Bannister MJ, 1994, Welding procedure for a closed tube assembly, Patent WO1994 001 379A1.
Bannister MJ, 1992, Oxygen probe assembly, US Patent 5114561.
Bannister MJ, 1989, Oxygen probe assembly – includes means for pre-oxidising and/or equilibrating test and/or reference gases before they contact electrodes working surfaces. WO8909398-A1; WO8909398-A; AU8934354-A; US5114561-A.
Badwal SPS, Bannister MJ, 1988, Low temperature solid electrolyte oxygen sensor, US Patent 4789454.
Badwal SPS, 1986, Sensor for oxygen partial pressure in hot gas – comprises non-stoichiometric semiconductor oxide material of metal oxide(s) in solid soln. in uranium di:oxide. EP199761-A1; WO8602731-A; AU8549656-A; EP199761-A; CN8507869-A; JP62500955-W; US4720993-A.
Badwal SPS, Bannister MJ, 1984, Electrode for solid electrolyte oxygen sensor – is surface layer of urania based metal oxide solid soln. on electrolyte. WO8403149-A1; WO8403149-A; AU8424959-A; GB2143952-A; DE3490037-T; JP60500382-W; GB2143952-B; US4789454-A; JP92026431-B; DE3490037-C2.
Bannister MJ, 1980, Oxygen sensors, US Patent 4240891.
Bannister MJ, McKinnon NA, Hughan RR, 1980, Oxygen sensors, US Patent 4193867.
Bannister MJ, 1979, Solid electrolyte oxygen sensor – useful in high temp. gases and molten metals and glass. GB2022842-A; DE2922947-A; JP55026490-A; US4240891-A; GB2022842-B; CA1139370-A; JP87007502-B; DE2922947-C.
Bannister MJ, McKinnon NA, Hughan RR, 1978, Oxygen measuring sensor using solid electrolyte – made from mixt. of an insulator and a good conductor of oxygen ions. DE2754522-A; JP53092193-A; US4193857-A; GB1575766-A; CA1112438-A; JP85041736-B; DE2760440-A; DE2754522-C; DE2760440-C.
Stringer RK, Johnston K A, 1977, Ceramic oxygen probe, US Patent 4046661.
Papers
Badwal SPS, Bannister MJ, Ciacchi FT, Hooshmand GA, 1988, Response rate techniques for zirconia-based Nernstian oxygen sensors, J Appl Electrochem, 18, 608-613.
Badwal SPS, Ciacchi FT, Haylock JW, 1988, Nernstian behavour of zirconia oxygen sensors incorporating composite electrodes, J Appl Electrochem, 18, 232-239.
Bannister MJ, Caesar ER, 1988, Phase changes at abraded surfaces of ZrO2-Sc2O3-Al2O3 solid electrolyte, J Mater Sci, 23, 365-370.
Badwal SPS, Bannister MJ, Garrett WG, 1987, Oxygen measurement with SIRO2 sensors, J Phys E: Sci Instrum, 20, 531-540.
Badwal SPS, Ciacchi FT, 1986, Performance of zirconia membrane oxygen sensors at low temperatures with nonstoichiometric oxide electrodes, J Appl Electrochem, 16, 28-40.
Badwal SPS, Ciacchi FT, 1986, Microstructure of Pt electrodes and its influence on the oxygen transfer kinetics, Solid State Ionics 18/19, 1054-1059.
Bannister MJ, Caesar ER, 1986, The preparation of Zr02-Sc203-A1203 solid electrolyte, J Aust Ceram Soc, 21, 30-34.
Bannister MJ, 1986, Oxygen concentration-cell determination of the standard molar Gibbs free energy of formation of SnO2, J Chem Thermodynamics, 18, 455-463.
Badwal SPS, Bannister MJ, Murray MJ, 1984, Non-stoichiometric oxide electrodes for solid state electrochemical devices, J Electroanal Chem, 168, 363-382.
Badwal SPS, 1984, Kinetics of the oxygen transfer reaction at the urania-scandia (U0.5Sc0.5 )02±x/yttria-stabilised zirconia (YSZ) interface by impedance spectroscopy, J Electroanal Chem, 161, 75-91.
Badwal SPS, Bannister MJ, Murray MJ, 1984, Non-stoichiometric oxide electrodes for solid state electrochemical devices, J Electroanal Chem, 168, 363-382.
Badwal SPS, Bannister MJ, Garrett WG, 1984, Low-temperature behaviour of Zr02 oxygen sensors, Adv Ceram, 12, 598-606.
Bannister MJ, Kanost HS, 1984, Unusual applications of the SIRO2 high temperature oxygen sensor, J Aust Ceram Soc, 20, 26-27.
Bannister MJ, 1984, Control of carbon potential using an oxygen sensor, Industrial Heating 51, 24-26.
Bannister MJ, 1984, The standard molar Gibbs free energy of formation of PbO. Oxygen concentration cell measurements at low temperature, J Chem Thermodynamics, 16, 787-792.
Badwal SPS, 1983, Effect of alumina and monoclinic zirconia on the electrical conductivity of Sc203-ZrO2 compositions, J Mater Sci 18, 3230-3242.
Badwal SPS, 1983, New electrode materials for low temperature oxygen sensors J Electroanl Chem, 146, 425-429
Bannister MJ, Skilton PF, 1983, The cubic=tetragonal equilibrium in the system zirconia-scandia at 1800 °C: effect of alumina, J Mater Sci Lett, 2, 561-564.
Bannister MJ, Skilton PF, 1983, The cubic-tetragonal equilibrium in the system zirconia-scandia at 1800°C: effect of alumina, J Mater Sci Lett 2, 561-564.
Badwal SPS,1982, SIRO2 oxygen sensor: electrical conductivity of electrolyte compositions, J Aust Ceram Soc, 18, 35.
Bannister MJ, 1982, Thermodynamic data for CaO.2Al2O3 and sub-solidus phase equilibria in the system ZrO2-Al2O3-CaO, J Aust Ceram Soc, 18, 17.
Bannister MJ, 1982, Development of the SIR02 oxygen sensor: sub-solidus phase equilibria in the system Zr02-A1203 -Y2O3, J Aust Ceram Soc, 18, 6-9
Bannister MJ, 1981, Development of the SIRO2 oxygen sensor: ternary phase equilibria in the system Zr02-A1203 –CaO, J Aust Ceram Soc, 17, 21-24.
Bannister MJ, Garrett WG, Johnston KA, McKinnon NA, Stringer RK, Kanost HS, 1980, The SIR02 oxygen sensor: development, properties and applications, Mater Sci Monographs, 6, 211-222.
Badwal SPS, Bevan DJM, 1979, Urania-yttria solid solution electrodes for high temperature electrochemical applications, J Mater Sci, 14, 2353-2365.
Bannister MJ, Garrett WG, 1975, Production of stabilized zirconia for use as a solid-state electrolyte, Ceramurgia International, 1,127-133.
Conference proceedings
Bannister MJ, Hooshmand GA, 1986, The SIR02 oxygen sensor – design, applications, and response rate Proc. Third ConJ on Control Engineering, Sydney, 12-14 May 1986 (The Institution of Engineers, Australia) National Conference Publication No 86/4 pp 59-65.
Badwal SPS, Ciacchi FT, Kashmirian AS, 1984, Paper presented at Sixth Australian Electrochemistry Conference, Geelong, Australia, February 19-24.
Various papers presented at the 7th, 8th, 9th and 10th Conferences of the Australian Ceramic Society.