Progress in mixed-potential type devices based on solid electrolyte for sensing redox gases
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Norio Miura | Noboru Yamazoe | Geyu Lu | N. Yamazoe | G. Lu | N. Miura
[1] Norio Miura,et al. Sensing Characteristics and Working Mechanism of Four‐Probe Type Solid‐State Hydrogen Sensor Using Proton Conductor , 1989 .
[2] Werner Weppner,et al. Solid-state electrochemical gas sensors☆ , 1987 .
[3] Junichiro Mizusaki,et al. Detection of carbon monoxide by using zirconia oxygen sensor , 1995 .
[4] P. Moseley,et al. The use of an oxygen-ion conducting ceramic to probe reactions taking place on the surface of a semiconducting oxide , 1989 .
[5] G. Alberti,et al. All solid state hydrogen sensors based on pellicular α-zirconium phosphate as a protonic conductor , 1989 .
[6] N. Yamazoe,et al. A high temperature amperometric NO sensor based on stabilized zirconia and CdCr2O4 electrode , 1998 .
[7] Norio Miura,et al. Selective detection of NO by using an amperometric sensor based on stabilized zirconia and oxide electrode , 1999 .
[8] H. Okamoto,et al. Interpretation of the electromotive forces of solid electrolyte concentration cells during carbon monoxide oxidation on platinum , 1983 .
[9] William J. Fleming,et al. Physical Principles Governing Nonideal Behavior of the Zirconia Oxygen Sensor , 1977 .
[10] T. Tan,et al. High‐Temperature Carbon Monoxide Potentiometric Sensor , 1993 .
[11] T. Tan,et al. Characteristics and Modeling of A Solid State Hydrogen Sensor , 1994 .
[12] T. Seiyama,et al. Chemical sensor technology , 1988 .