Solid state electrodes

C. Pliangos, C. Raptis, T. Badas, and C.G. Vayenas, Electrochemical promotion ofNO reduction by C3H6 on Rh/YSZ catalyst-electrodes, Solid State Ionics 136/137, 767-773 (2000). [Pg.84]

Kleinfeld, M. Wiemhofer, H.-D. 1988. Chemical diffusion coefficients and stabihty of CuInS2 and CuInSe2 from polarization measurements with point electrodes. Solid State Ionics. 28-30 1111-1115. [Pg.107]

A potentiometric electrochemical cell consisting of a reference electrode, solid-state electrolyte(s), and an indicator electrode can provide information about the partial pressure of gas in the same way as the cells utilizing ion-selective electrodes and liquid electrolytes can. The general mechanism is as follows. A sample gas, which is part of a redox couple, permeates into the solid-state structure usually through the porous metal electrode and sets up a reversible potential difference at that interface according to the reaction... [Pg.189]

Cullander, C., and R.H. Guy. 1992. Visualization of iontophoretic pathways with confocal microscopy and the vibrating probe electrode. Solid State Ionics 53-56 197. [Pg.229]

Huintung Deng, Minyan Zhou and B. Abeles, Diffusion reaction in mixed-electronic solid oxide membranes with porous electrodes. Solid State Ionics, 74 (1994) 75-84. [Pg.432]

Ono, T., Hasei, M., Kunimoto, A., and Miura, N. 2004. Improvement of sensing performances of zirconia-based total NO sensor by attachment of oxidation-catalyst electrode. Solid State Ionics 175, 503-506. [Pg.295]

Raistrick, I.D., and Huggins, R.A. 1982. The transient electrical response of electrochemical systems containing insertion reaction electrodes. Solid State Ionics 7, 213-218. [Pg.296]

Jacob, K.T., Swaminathan, K. and Sreedharan, O.M. (1989) Stability constraints in the design of galvanic cells using composite electrolytes and auxiliary electrodes. Solid State. Ionics, 34. 167-73. [Pg.469]

Chueh, W.C., Lai. W. and Haile. S.M. (2008) Electrochemical behavior of ceria with selected metal electrodes. Solid State Ionics, 179, 1036M1. [Pg.470]

Holzinger, M., Maier, J. and Sitte, W. (1996) Fast CO2-selective potentiometric sensor with open reference electrode. Solid State Ionics, 86-88, 1055-62. [Pg.474]

Di Bartolomeo, E., Kaabbuathong, N., Grilli, M. L. and Traversa, E. (2004) Planar electrochemical sensors based on tape-cast YSZ layers and oxide electrodes. Solid State Ionics, 171 (3-4), 173-81. [Pg.481]

Hamamoto, K, Fujishrro, T. and Awano, M. (2008) Gas sensing property of the electrochemical cell with a multilayer catalytic electrode. Solid State Ionics, 179, 1648-51. [Pg.482]

Miura, N., Lu, G., Ono, M. and Yamazoe, N. (1999) Selective detection of NO by using an amperometric sensor based on stabilized zirconia and oxide electrode. Solid State Ionics, 117 (3-4), 283—90. [Pg.486]

Szabo, N.R and Dutta, P.K., Correlation of sensing behaviour of mixed potential sensors with chemical and electrochemical properties of electrodes. Solid State Ionics 171 (2004) 183-190. [Pg.89]

Zhuiykov, S. et al.. High-temperature NOx sensors using zirconia and zinc-famUy oxide sensing electrode. Solid State Ionics 152 (2002) 801-807. [Pg.89]

Zhuiykov, S. et al.. High-temperature NO sensors using zirconia solid electrolyte and zinc-family oxide sensing electrode. Solid State Ionics 152-153 (2002) 801-807. Miura, N., Nakatou, N., and Zhuiykov, S., Impedancemetric gas sensor based on zirconia solid electrolyte and oxide sensing electrode for detecting total NO at high temperature. Sens. Actuators B Chem. 93 (2003) 221-228. [Pg.251]

Choi, Y.-M. and S.-I. Pyun, Effects of intercalation-induced stress on lithium transport through porous LiCo02 electrode. Solid State Ionics, 1997. 99 pp. 173-183... [Pg.146]

T.M. GUR, I.D. RAISTICK, R.A. HUGGINS, AC admittance measuiments on stabilized zirconia with porous platinum electrodes . Solid State Ionics, 1, p.251-271,1980. [Pg.428]

B.L. KUZIN, M.A. KOMAROV, Adsorption of O2 at R and kinetics of oxygen reaction at the porous platinium electrodes . Solid State Ionics, 36,1990. [Pg.430]

Naegele, D., and R. Bittihn. 1988. Electrically conductive polymers as rechargeable battery electrodes. Solid State Ionics 28-30 (2) 983. [Pg.1413]

Ryu, KS., et al. 2002. Redox supercapacitor using polyaniline doped with Li salt as electrode. Solid State Ionics 152-153 861. [Pg.1417]

The general trend to miniaturize chemical sensors and to make them cheap and easier for handling has led to the development of potentiometric sensors with solid internal contact. This class of sensors includes different types of solid-state electrodes, solid-state contact, and coated wire electrodes as well as ion-selective field-effect transistors (FETs). [Pg.2375]

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