Spin-polarized density functional theory (DPT) calculations are carried out to determine the site preference of H adsorption on Pd(100) surface and subsurface, We carefully scrutinize the energy difference between...Spin-polarized density functional theory (DPT) calculations are carried out to determine the site preference of H adsorption on Pd(100) surface and subsurface, We carefully scrutinize the energy difference between different patterns at θ=0.50 ML and confirm the LEED observation that surface adsorption can form c(2×2) ordering structure. On the contrary, we disclose that p(2×1) structure become more favorable than c(2×2) for subsurface adsorption. These site preferences are rationalized via an analysis of the layer and orbital resolved density of states. Furthermore, we propose that the interstitial charge as a key factor determining the preferred H adsorbed site.展开更多
基金supported by the National Nature Science Foundation of China(21131005,20925103,21373167,21033006,21133004,21333008)the Fundamental Research Funds of Central Universities
文摘Spin-polarized density functional theory (DPT) calculations are carried out to determine the site preference of H adsorption on Pd(100) surface and subsurface, We carefully scrutinize the energy difference between different patterns at θ=0.50 ML and confirm the LEED observation that surface adsorption can form c(2×2) ordering structure. On the contrary, we disclose that p(2×1) structure become more favorable than c(2×2) for subsurface adsorption. These site preferences are rationalized via an analysis of the layer and orbital resolved density of states. Furthermore, we propose that the interstitial charge as a key factor determining the preferred H adsorbed site.
