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Electrochemical solid state

T.M. Giir, and R.A. Huggins, Decomposition of Nitric Oxide on Zirconia in a Solid-state electrochemical cell, J. Electrochem. Soc. 126(6), 1067-1075 (1979). [Pg.12]

J.N. Michaels, C.G. Vayenas, and L.L. Hegedus, A Novel Cross-Flow Design for Solid State Electrochemical Reactors, J. Electrochem. Soc. 133, 522-525 (1986). [Pg.108]

Les Leschke, M., Lang, H., Holze, R. J. Solid State Electrochem. 7 (2003) 518. [Pg.51]

Jau2 Janes, A., Miidla, P., Lust, E. J. Solid State Electrochem. 3 (1999) 277. [Pg.459]

Bouroushian M, Kosanovic T, Loizos Z, Spyrellis N (2002) Electrochemical formation of ZnSe from acidic aqueous solutions. J Solid State Electrochem 6 272-278... [Pg.144]

Yang YJ, He LY (2006) Dissolution of lead electrode and preparation of rod-shaped PbS crystals in a novel galvanic ceU. J Solid State Electrochem 10 430-433... [Pg.148]

Li KW, Meng XT, Liang X, Wang H, Yan H (2006) Electrodeposition and characterization of PbSe films on indium tin oxide glass substrates. J Solid State Electrochem 10 48-53... [Pg.148]

Titles K, Bund A, Plieth W, Bentien A, Paschen S, Pldttner M, Grafe H, Fischer WJ (2003) Electrochemical deposition of Bi2Te3 for thermoelectric microdevices. J Solid State Electrochem 7 714-723... [Pg.149]

Michel S, Dihberto S, Stein N, BoUe B, Boulanger C (2008) Characterisation of electroplated Bi2(Tei xSex)3 alloys. J Solid State Electrochem 12 95-101... [Pg.149]

Tittes K, Plieth W (2007) Electrochemical deposition of ternary and binary systems from an alkaline electrolyte—a demanding way for manufacturing p-doped bismuth and antimony teUurides for the use in thermoelectric elements. J Solid State Electrochem 11 155-164... [Pg.149]

Cachet H, Cortes R, Eroment M, Mamin G (1997) Epitaxial electrodeposition of cadmium selenide thin films on indium phosphide single crystal. J Solid State Electrochem 1 100-107... [Pg.198]

Solaliendres MO, ManzoU A, Salazar-BandaGR, Egmluz KIB, Tanimoto ST, Machado SAS (2008) The processes involved in the Se electrodeposition and dissolution on Au electrode the H2Se formation. J Solid State Electrochem 12 679-686... [Pg.202]

Choong KR, Changhoon J, Bonseong K (2005) 2-Dimensional atomic arrangements of Te on Pt(l 11) whose coverage is higher than 0.25. J Solid State Electrochem 9 247-253... [Pg.202]

Lee JW, Popov BN (2007) Ruthenium-based electrocatalysts for oxygen reduction reaction—a review. J Solid State Electrochem 11 1355-1364... [Pg.344]

Levi E, Lancry E, Gofer Y, Aurbach D (2006) The crystal structure of the inorganic surface films formed on Mg and Li intercalation compounds and the electrode performance. J Solid State Electrochem (2006) 10 176-184... [Pg.346]

Tsipis EV, Kharton VV (2008) Electrode materials and reaction mechanisms in solid oxide fuel cells A brief review I. Performance-determining factors. J Solid State Electrochem 12 1039-1060 II. Electrochemical behavior vs. materials science aspects, ibid 1367-1391... [Pg.346]

Angelucci CA, Herrero E, Feliu JM. 2007b. Bulk CO oxidation on platinum electrodes vicinal to the Pt(lll) surface. J Solid State Electrochem 11 1532-1539. [Pg.199]

Cherstiouk OV, Gavrilov AN, Plyasova LM, Molina lY, Tsirlina GA, Savinova ER. 2008. Influence of stmctural defects on the electrocatalytic activity of platinum. J Solid State Electrochem 12 497-509. [Pg.554]

Prieto A, Hernandez J, Herrero E, Feliu JM. 2003. The role of anions in oxygen reduction in neutral and basic media on gold single-crystal electrodes. J Solid State Electrochem 7 599-606. [Pg.591]

Saterlay AJ, Wilkins SJ, Goeting CH et al (2000) Sonoelectrochemistry at highly boron-doped diamond electrodes silver oxide deposition and electrocatalysis in the presence of ultrasound. J Solid State Electrochem 4 383-389... [Pg.128]

M. Vazquez, J. Bobacka, M. Luostarinen, K. Rissanen, A. Lewenstam, and A. Ivaska, Potentiometric sensors based on poly(3,4-ethylenedioxythiophene) (PEDOT) doped with sulfonated calix[4]arene and calix[4]resorcarenes. J. Solid State Electrochem. 9, 312-319 (2005). [Pg.136]

M.H. Pournaghi-Azar and R. Sabzi, Preparation of a cobalt hexacyanoferrate film-modified aluminum electrode by chemical and electrochemical methods enhanced stability of the electrode in the presence of phosphate and ruthenium(III). J. Solid State Electrochem. 6, 553—559 (2002). [Pg.455]

P. Wang, X.Y. Jing, W.Y. Zhang, and G.Y. Zhu, Renewable manganous hexacyanoferrate-modified graphite organosilicate composite electrode and its electrocatalytic oxidation of L-cysteine. J. Solid State Electrochem. 5, 369-374 (2001). [Pg.457]

S.M. Golabi and F. Noor-Mohammadi, Electrocatalytic oxidation of hydrazine at cobalt hexacyanoferrate-modified glassy carbon, Pt and Au electrodes. J. Solid State Electrochem. 2, 30-37 (1998). [Pg.457]

Attia, A. Zukalova, M. Pospisil, L. Kavan, L. 2007. Electrochemical impedance spectroscopy of mesoporous Al-stabilized Ti02 (anatase) in aprotic medium. J. Solid State Electrochem. 11 1163-1169. [Pg.311]

Another possibility to analyze the combustion quality is to measure components in the flue gas which are directly related to the 02-content like CO or C02. There are two main methods of measuring C02. One detection method uses electrochemical cells (see chapter 5.3.2.3), but both liquid and solid-state electrochemical C02-cells are not long-term stable if directly exposed to flue gas. A more promising approach is the measurement of the CO content by using modified high-temperature stable... [Pg.153]

A number of oxides with the fluorite structure are used in solid-state electrochemical systems. They have formulas A02 xCaO or A02 xM203, where A is typically Zr, Hf, and Th, and M is usually La, Sm, Y, Yb, or Sc. Calcia-stabilized zirconia, ZrC)2.xCaO, typifies the group. The technological importance of these materials lies in the fact that they are fast ion conductors for oxygen ions at moderate temperatures and are stable to high temperatures. This property is enhanced by the fact that there is negligible cation diffusion or electronic conductivity in these materials, which makes them ideal for use in a diverse variety of batteries and sensors. [Pg.280]

Figure 8.15 Calculated composition versus oxygen stoichiometry curves for Lai- SrjCoCb-s. [The two experimental points are taken from data in A. N. Petrov, V. A. Cherepanov, and A. Y. Zuev, Thermodynamics, Defect Structure and Charge Transfer in Doped Lanthanum Cobaltites An Overview, J. Solid State Electrochem., 10, 517-537 (2006).]... Figure 8.15 Calculated composition versus oxygen stoichiometry curves for Lai- SrjCoCb-s. [The two experimental points are taken from data in A. N. Petrov, V. A. Cherepanov, and A. Y. Zuev, Thermodynamics, Defect Structure and Charge Transfer in Doped Lanthanum Cobaltites An Overview, J. Solid State Electrochem., 10, 517-537 (2006).]...
See other pages where Electrochemical solid state is mentioned: [Pg.413]    [Pg.499]    [Pg.478]    [Pg.55]    [Pg.413]    [Pg.100]    [Pg.100]    [Pg.100]    [Pg.640]    [Pg.76]    [Pg.146]    [Pg.106]    [Pg.7]    [Pg.147]    [Pg.398]    [Pg.64]   


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