Environmental Engineering Reference
In-Depth Information
Childers CL, Huang H, Korzeniewski C. 1999. Formaldehyde yields from methanol electroche-
mical oxidation on carbon-supported platinum catalysts. Langmuir 15: 786 - 789.
Christensen PA, Hamnett A, Weeks SA. 1988. In-situ FTIR study of adsorption and oxidation of
methanol on platinum and platinized glassy carbon electrodes in sulphuric acid solution. J
Electroanal Chem 250: 127 - 142.
Cohen JL, Volpe DJ, Abru˜ a, HD. 2008. Electrochemical determination of activation energies
for methanol oxidation on polycrystalline platinum in acidic and alkaline electrolytes. Phys
Chem Chem Phys 9: 49 - 77.
Coutanceau C, Hahn F, Waszczuk P, Wieckowski A, Lamy C, L´ger J-M. 2002. Radioactive
labeling study and FTIR measurements of methanol adsorption and oxidation on fuel cell cat-
alysts. Fuel Cells 2: 153 - 158.
Cuesta A. 2006. At least three contiguous atoms are necessary for CO formation during metha-
nol electrooxidation on platinum. J Am Chem Soc 128: 13332 - 13333.
de Lima RB, Massafera MP, Batista EA, Iwasita T. 2007. Catalysis of formaldehyde oxidation
by electrodeposits of PtRu. J Electroanal Chem 603: 142 - 148.
Desai SK, Neurock M, Kourtakis K. 2002. A periodic density functional theory analysis of the
dehydrogenation of methanol over Pd(111). J Phys Chem B 106: 2559 - 2568.
Entina VS, Petrii OA, Rysikova VT. 1967. On the nature of products of methanol chemisorption
on Pt þ Ru electrode surface. Elektrokhimiya 3: 758 - 761.
Fan Q, Pu C, Ley KL, Smotkin ES. 1996. In situ FTIR - diffuse reflectance spectroscopy of the
anode surface in a direct methanol fuel cell. J Electrochem Soc 143: L21 - L23.
Feliu JM, Herrero E. 2003. Formic acid oxidation. In: Vielstich W, Gasteiger HA, Lamm A, eds.
Handbook of Fuel Cells. Volume 2: Electrocatalysis. Chichester: Wiley. pp. 625 - 634.
Franaszczuk K, Herrero E, Zelenay P, Wieckowski A, Wang J, Masel RI. 1992. A comparison
of electrochemical and gas-phase decomposition of methanol on platinum surfaces. J Phys
Chem 96: 8509 - 8516.
Friedrich KA, Henglein F, Stimming U, Unkauf W. 2000. Size dependence of the CO
monolayer oxidation on nanosized Pt particles supported on gold. Electrochim Acta 45:
3283 - 3293.
Gao L, Huang H, Korzeniewski C. 2004. The efficiency of methanol conversion to CO 2 on thin
films of Pt and PtRu fuel cell catalysts. Electrochim Acta 49: 1281 - 1287.
Gasteiger HA, Markovic NM, Ross PN, Cairns EJ. 1993. Methanol electrooxidation on well-
characterized Pt-Ru alloys. J Phys Chem 97: 12020 - 12029.
Gasteiger HA, Markovic NM, Ross PN, Cairns EJ. 1994. Electro-oxidation of small organic
molecules on well-characterized Pt-Ru alloys. Electrochim Acta 39: 1825 - 1832.
Gasteiger HA, Markovic NM, Ross PN. 1995. H 2 and CO electrooxidation on well-character-
ized Pt, Ru, and Pt-Ru. 1. Rotating disk electrode studies of the pure gases including temp-
erature effects. J Phys Chem 99: 8290 - 8301.
Gavrilov AN, Savinova ER, Simonov PA, Zaikovskii VI, Cherepanova SV, Tsirlina GA,
Parmon VN. 2007. On the influence of the metal loading on the structure of carbon-supported
PtRu catalysts and their electrocatalytic activities in CO and methanol electrooxidation. Phys
Chem Chem Phys 9: 5476 - 5489.
Ge Q, Desai S, Neurock M, Kourtakis K. 2001. CO adsorption on Pt-Ru surface alloys and on
the surface of Pt-Ru bulk alloy. J Phys Chem B 106: 9533 - 9536.
Search WWH ::




Custom Search