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Jusys Z, Kaiser J, Behm RJ. 2001. Electrooxidation of CO and H
2
/CO mixtures on a carbon
supported Pt catalyst—A kinetic and mechanistic study by differential electrochemical
mass spectrometry. Phys Chem Chem Phys 3: 4650 - 4660.
Jusys Z, Kaiser J, Behm RJ. 2002a. Composition and activity of high surface area PtRu catalysts
towards adsorbed CO and methanol electrooxidation. A DEMS study. Electrochim Acta 47:
3693 - 3706.
Jusys Z, Schmidt TJ, Dubau L, Lasch K, J¨ rissen L, Garche J, Behm RJ. 2002b. Activity of
PtRuMeO
x
(Me ¼ W, Mo or V) catalysts towards methanol oxidation and their characteriz-
ation. J Power Sources 105: 297 - 304.
Jusys Z, Kaiser J, Behm RJ. 2003. Methanol electrooxidation over Pt/C fuel cell catalysts—
Dependence of product yields on catalyst loading. Langmuir 19: 6759 - 6769.
Kazarinov VE, Tysyachnaya GY, Andreev VN. 1975. On the reasons for the discrepancies in the
data on methanol adsorption on platinum. J Electroanal Chem 65: 391 - 400.
Koper MTM, Jansen APJ, van Santen RA. 1998. Monte Carlo simulations of a simple model for
the electrocatalytic CO oxidation on platinum. J Chem Phys 109: 6051 - 6062.
Korzeniewski C, Childers CL. 1998. Formaldehyde yields from methanol electrochemical
oxidation on platinum. J Phys Chem B 102: 489 - 492.
Korzeniewski C, Kardash D. 2001. Use of a dynamic Monte Carlo simulation in the study of
nucleation-and-growth models for CO electrochemical oxidation. J Phys Chem B 105:
8663 - 8671.
Lamy C, L´ger J-M, Clavilier J, Parsons R. 1983. Structural effects in electrocatalysis: A com-
parative study of the oxidation of CO, HCOOH and CH
3
OH on single crystal Pt electrodes.
J Electroanal Chem 150: 71 - 77.
Lanova B, Wang H, Baltruschat H. 2006. Methanol oxidation on carbon supported Pt and Ru-
modified Pt nanoparticles: A comparison with single crystal and polycrystalline electrodes.
Fuel Cells 3/4: 214 - 224.
Lebedeva NP, Koper MTM, Feliu JM, van Santen RA. 2000. Role of crystalline defects in elec-
trocatalysis: Mechanism and kinetics of CO adlayer oxidation on stepped polatinum electro-
des. J Phys Chem B 106: 12938 - 12947.
Lebedeva NP, Koper MTM, Feliu JM, van Santen RA. 2002. Mechanism and kinetics of
the electrochemical CO adlayer oxidation on Pt(111). J Electroanal Chem 524 - 525: 242 - 251.
Leung L-WH, Weaver MJ. 1990. Influence of adsorbed carbon monoxide on the electrocatalytic
oxidation of simple organic molecules at platinum and palladium electrodes in acidic sol-
ution: A survey using real-time FTIR spectroscopy. Langmuir 6: 323 - 333.
Levenspiel O. 1972. Chemical Reaction Engineering. New York: Wiley.
Lima A, Coutanceau C, L
´
ger J-M, Lamy C. 2001. Investigation of ternary catalysts for metha-
nol electrooxidation. J Appl Electrochem 31: 379 - 386.
Lin W-F, Wang J-T, Savinell RF. 1997. On-line FTIR spectroscopic investigations of methanol
oxidation in a direct methanol fuel cell. J Electrochem Soc 144: 1917 - 1922.
Lindstr¨m RW, Seidel YE, Jusys Z, Gustavsson M, Kasemo B, Behm RJ. Submitted for
publication.
Lopes MIS, Beden B, Hahn F, L´ger J-M, Lamy C. 1991. On the nature of the adsorbates result-
ing from the chemisorption of methanol at a platinum electrode in acid medium: An EMIRS
study. J Electroanal Chem 313: 323 - 339.
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