Density-functional study of the CO chemisorption on bimetallic Pd-Sn(110) surfaces

摘要

We study the ordered PdSn c(2 × 2), (2×1), and PdSn_2 (3×1) overlayers deposited on Pd(110) by using first-principles density-functional calculations. It appears that the two PdSn structures are almost degenerate in the energy. Pd-Sn surfaces we consider do not display the marked buckling with Sn atoms displaced towards vacuum that is common for Pt-Sn surfaces. Low-coverage CO chemisorption at these overlayers and on analogous surface structures on Pd_3Sn is considered. It is shown that inclusion of an empirical correction to the CO adsorption energy changes the stable adsorption site from the long-bridge to the top one in most cases. The adsorption energy decreases with the number of Sn atoms in the vicinity of the adsorption site, and this property correlates well with the position of the centre of gravity of the local Pd d-electron band, and also with the variation of the local density of d-electron states at the Fermi level. The centre-of-gravity value is used to assess the core-level shifts for Pd atoms in various geometries. Most of the calculated data compare rather well with the recent measurements on Pd-Sn overlayers at Pd(110) as well as with other data on related bimetallic systems.