Electrochemical communication

Fletoher S and Florne M D 1999 Random assemblies of mioroeleotrodes (RAM eleotrodes) for eleotroohemioal studies Electrochem. Commun. 1 502... [Pg.1951]

Sohwarz J, Kaden FI and Enseleit U 2000 Voltammetrio examinations of ferrooene on mioroeleotrodes and mioroarrayeleotrodes Electrochem. Commun. 2 606... [Pg.1951]

Detailed and shorter39 45 reviews of the electrochemical promotion literature prior to 1996 have been published, mainly addressed either to the catalytic or to the electrochemical community. Earlier applications of solid electrolytes in catalysis, including solid electrolyte potentiometry and electrocatalysis have been reviewed previously. The present book is the first on the electrochemical activation of catalytic reactions and is addressed both to the electrochemical and catalytic communities. We stress both the electrochemical and catalytic aspects of electrochemical promotion and hope that the text will be found useful and easy to follow by all readers, including those not frequently using electrochemical, catalytic and surface science methodology and terminology. [Pg.8]

Bouroushian M, Kosanovic T, Loizos Z, SpyreUis N (2000) On a thermodynamic description of Se(IV) electroreduction and CdSe electrolytic formation on Ni, Ti and Pt cathodes in acidic aqueous solution. Electrochem Commun 2 281-285... [Pg.142]

Li X, Nandhakumar IS (2008) Direct electrodeposition of PbTe thin films on -type sihcon. Electrochem Commun 10 363-366... [Pg.149]

Peter EM, Wang RL (1999) Channel flow ceU electrodeposition of CdTe for solar cells. Electrochem Commun 1 554-558... [Pg.152]

Cachet H, Cortes R, Froment M, Mamin G (1999) Epitaxial growth of electrodeposited cadmium selenide on (111) gallium arsenide. Philos Mag Lett 79/10 837-840 Muthuvel M, Stickney JL (2006) CdTe Electrodeposition on InP(lOO) via Electrochemical Atomic Layer Epitaxy (EC-ALE) Studies Using UHV-EC. Langmuir 22 5504-5508 Streltsov EA, Osipovich NP, Ivashkevich LS, Lyakhov AS (1999) Effect of Cd(ll) on electrodeposition of textured PbSe. Electrochim Acta 44 2645-2652 Beaunier L, Cachet H, Cortes R, Froment M (2000) Electrodeposition of PbSe epitaxial films on (111) InP. Electrochem Commun 2 508-510... [Pg.199]

Torimoto T, Obayashi A, Kuwabata S, Yoneyama H (2000) Electrochemical preparation of ZnS/CdS superlattice and its photoelectrochemical properties. Electrochem Commun 2 359-362... [Pg.202]

Osipovich NP, Streltsov EA, Susha AS (2000) Bismuth underpotential deposition on tellurium. Electrochem Commun 2 822-826... [Pg.203]

Ham S, Choi B, Paeng KJ, Myung N, Rajeshwar K (2007) Photoinduced cathodic deposition of CdTe nanoparticles on polycrystalline gold substrate. Electrochem Commun 9 1293-1297... [Pg.203]

Ivanova YA, Ivanou DK, Streltsov EA (2007) Electrodeposition of PbTe onto n-Si(lOO) wafers. Electrochem Commun 9 599-604... [Pg.203]

Rabchynski SM, Ivanou DK, Streltsov EA (2004) Photoelectrochemical formation of indium and cadmium selenide nanoparticles through Se electrode precursor. Electrochem Commun 6 1051-1056... [Pg.203]

Lee K, Zhang L, Zhang J (2007) Ternary non-noble mefal chalcogenide (W-Co-Se) as electrocatalyst for oxygen reduction reaction. Electrochem Commun 9 1704-1708... [Pg.344]

Gochi-Ponce Y, Alonso-Nunez G, Alonso-Vante N (2006) Synthesis and electrochemical characterization of a novel platinum chalcogenide electrocatalyst with an enhanced tolerance to methanol in the oxygen reduction reaction. Electrochem Commun 8 1487-1491... [Pg.344]

DNA hybridization based on cadmium sulfide nanoparticle tags. Electrochem Commun 4 ... [Pg.348]

Bulletin of Electrochemistry, Central Electrochemical Research Institute, Karaikudi, India. Electrochemical and Solid State Letters, Electrochemical Society, Pennington, N.J. Electrochemical Communications. Elsevier, Amsterdam. [Pg.710]

Saliba, R., Mingotaud, C., Argoul, F. and Ravaine, S. (2002) Spontaneous oscillations in gold electrodeposition. Electrochem. Commun., 4, 629-632. [Pg.257]

Angelucci CA, Nart FC, Heirero E, Feliu JM. 2007a. Anion re-adsorption and displacement at platinum single crystal electrodes in CO-containing solutions. Electrochem Commun 9 1113-1119. [Pg.199]

Batista EA, Malpass GRP, Motheo AJ, Iwasita T. 2003. New insight into the pathways of methanol oxidation. Electrochem Commun 5 843-846. [Pg.199]

Housmans THM, Koper MTM. 2005b. CO oxidation on stepped Rh[n(lll) x (111)] single-crystal electrodes Anion effects on CO surface mobility. Electrochem Commun 7 581-588. [Pg.202]

Lebedeva NP, Koper MTM, Eeliu JM, van Santen RA. 2000b. The effect of the cooling atmosphere in the preparation of flame-annealed Pt(l 11) electrodes on CO adlayer oxidation. Electrochem Commun 2 487-490. [Pg.203]

Macia MD, Herrero E, Fehu JM, Aldaz A. 1999. Fomtic acid self-poisoning on bismuth-modified Pt(755) and Pt(775) electrodes. Electrochem Commun 1 87-89. [Pg.204]

Savadogo O, Lee K, Oishi K, Mitsushimas S, Kamiya N, Ota K-I. 2004. New palladium alloys catalyst for the oxygen reduction reaction in an acid medium. Electrochem Commun 6 105 109. [Pg.312]

Sugimoto W, Saida T, Takasu Y. 2006. Co-catalytic effect of nanostructured ruthenium oxide towards electro-oxidation of methanol and carbon monoxide. Electrochem Commun 8 411-415. [Pg.339]

Schmidt TJ, Gasteiger HA, Behm RJ. 1999. Methanol electrooxidation on a colloidal PtRu-alloy fuel-cell catalyst. Electrochem Commun 1 1-4. [Pg.372]

Varcoe JR, Slade RCT. 2006. An electron-beam-grafted ETFE alkaline anion-exchange membrane in metal-cation-fiee solid-state alkaline fuel cells. Electrochem Commun 8 839-843. [Pg.372]

Wang Y, Li L, Hu L, Zhuang L, Lu J, Xu B. 2003. A feasibility analysis for alkaline membrane direct methanol fuel cell Thermodynamic disadvantages versus kinetic advantages. Electrochem Commun 5 662. [Pg.372]

El-Aziz AM, Kihler LA. 2002. New information about the electrochemical behaviour of Ru(OOOl) in perchloric acid solutions. Electrochem Commun 4 866. [Pg.500]

Kumar S, Zou S. 2006. Electroreduction of O2 on uniform arrays of Pt and PtCo nanoparticles. Electrochem Commun 8 1151-1157. [Pg.559]

Solla-Gullon J, Solla-Gullon J, Vidal-Iglesias FJ, Herrero E, Feliu JM, Aldaz A. 2006. CO monolayer oxidation on semi-spherical and preferentially oriented (100) and (111) platinum nanoparticles. Electrochem Commun 8 189-194. [Pg.564]

Takasu Y, Iwazaki T, Sugimoto W, Murakami Y. 2000. Size effects of platinum particles on the electro-oxidation of methanol in an aqueous solution of HCIO4. Electrochem Commun 2 671-674. [Pg.564]

AlexeyevaN, Laaksonen T. 2006. Oxygen reduction on gold nanoparticle/multi-walled carbon nanotubes modified glassy carbon electrodes in acid solution. Electrochem Commun 8 1475-1480. [Pg.586]

El-Deab MS, Ohsaka T. 2002b. An extraordinary electrocatalytic reduction of oxygen on gold nanoparticles-electrodeposited gold electrodes. Electrochem Commun 4 288-292. [Pg.588]

El-Deab M, Sotomura T, Ohsaka T. 2005a. Oxygen reduction at electrochemically deposited crystallographically oriented Au(100)-like gold nanoparticles. Electrochem Commun 7 29-34. [Pg.588]

Yagi I, Ishida T, et al. 2004. Electrocatal)tic reduction of oxygen to water at Au nanoclusters vacuum-evaporated on boron-doped diamond in acidic solution. Electrochem Commun 6 773-779. [Pg.592]

Yu X, Chattopadhyay D, Galeska I, Papadimitrakopoulos E, Rusling JE. 2003. Peroxidase activity of enzymes bound to the ends of single-wall carbon nanotube forest electrodes. Electrochem Commun 5 408-411. [Pg.636]

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