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Markovic NM, Ross PN. 2002. Surface science studies of model fuel cell electrocatalysts. Surf
Sci Rep 45: 117 - 230.
Maroun F, Ozanam F, Magnussen OM, Behm RJ. 2001. The role of atomic ensembles in the
reactivity of bimetallic electrocatalysts. Science 293: 1811 - 1814.
Ocko BM, Wang J, Davenport A, Isaacs H. 1990. In situ X-ray reflectivity and diffraction studies
of the Au(001) reconstruction in an electrochemical cell. Phys Rev Lett 65: 1466 - 1469.
Oppenheim IC, Trevor DJ, Chidsey CED, Trevor PL, Sieradzki K. 1991. In situ scanning tun-
neling microscopy of corrosion of silver - gold alloys. Science 254: 687 - 689.
Ritz G, Schmid M, Varga P, Borg A, Ronning M. 1997. Pt(100) quasihexagonal reconstruction:
A comparison between scanning tunneling microscopy data and effective medium theory
simulation calculations. Phys Rev B 56: 10518 - 10525.
Robinson IK. 1986. Crystal truncation rods and surface roughness. Phys Rev B 33: 3830 - 3836.
Ross PN Jr. 1982. Studies of adsorption at well-ordered electrode surfaces using low-energy
electron diffraction. In: Vanselow R, Howe R, editors. Chemistry and Physics of Solid
Surfaces IV. Berlin: Springer-Verlag, pp. 173 - 201.
Ross PN. 1998. The science of electrocatalysis on bimetallic surfaces. In: Lipkowski J, Ross PN
Jr, editors. Electrocatalysis. New York: Wiley-VCH. pp. 43 - 74.
Sieradzki K, Brankovic SR, Dimitrov N. 1999. Electrochemical defect-mediated thin-film
growth. Science 284: 138 - 141.
Somorjai GA. 1985. Surface science and catalysis. Science 227: 902 - 908.
Somorjai GA. 1992. The frontiers of surface-structure analysis. Surf Interface Anal 19:
493 - 507.
Somorjai GA. 1993. Introduction to Surface Chemistry and Catalysis. New York: Wiley.
Stamenkovic V, Arenz M, Blizanac BB, Mayrhofer KJJ, Ross PN, Markovic NM. 2005. In situ
CO oxidation on well characterized Pt
3
Sn(hkl) surfaces: A selective review. Surf Sci 576:
145 - 157.
Stamenkovic V, Arenz M, Lucas C, Gallagher M, Ross PN, Markovic NM. 2003. Surface chem-
istry on bimetallic alloy surfaces: adsorption of anions and oxidation of CO on Pt
3
Sn(111).
J Am Chem Soc 125: 2736 - 2745.
Stamenkovic V, Arenz M, Ross PN, Markovic NM. 2004. Temperature-induced deposition
method for anchoring metallic nanoparticles onto reflective substrates for in situ electroche-
mical infrared spectroscopy. J Phys Chem B 108: 17915 - 17920.
Stamenkovic VR, Fowler D, Mun BS, Wang G, Ross PN Jr, Lucas C, Markovic NM. 2007a.
Improved oxygen reductionactivity on Pt
รพ
Ni(111) via increased surfrce site avalability.
Science 315: 493 - 497.
Stamenkovic VR, Mun BS, Arenz M, Mayrhofer KJJ, Lucas C, Wang G, Ross PN, Markovic
NM. 2007b. Trends in electrocatalysis on extended and nanoscale Pt-bimetallic surfaces.
Nature Mater 6: 241 - 247.
Stamenkovic V, Mun BS, Blizanac BB, Mayrhofer KJJ, Ross PN Jr, Markovic NM. 2006a. The
effect of surface composition on electronic structure, stability and electrocehmical properties
of Pt-transition metal alloys; Pt-skin vs. Pt-skeleton surfaces. J Am Chem Soc 137: 1.
Stamenkovic V, Mun BS, Mayrhofer KJJ, Ross PN, Markovic NM, Rossmeisl J, Greeley J,
Norskov JK. 2006b. Changing the activity of electrocatalysts for oxygen reduction by
tuning the surface electronic structure. Angew Chem. 4: 1.
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