Abstract A systematic study of the binding and adsorption energies of the surface atoms on different sites of Cun clusters with tetrahedral shape is performed using density functional theory. The… Click to show full abstract
Abstract A systematic study of the binding and adsorption energies of the surface atoms on different sites of Cun clusters with tetrahedral shape is performed using density functional theory. The atom number n ranging from 10 to 120 and atop adsorption of carbon monoxide on these clusters are tested. The obvious size and site dependence of the binding energy Ec-x of the surface atoms and their adsorption energy Ead-x for CO molecule respectively located on vertex (v), edge (e), and (111) facet (f) are observed, with x meaning site and being v, e and f. Even though the obvious size dependence on both Ec-x and Ead-x exist, their regular changes with size disappear. For the site influence on the surface atom in these Cu clusters, the binding energies and adsorption energies have the sequence: Ec-v > Ec-e > Ec-f and Ead-v > Ead-e > Ead-f, but Cu35 and Cu56 are the exceptions in Ead-x. In these clusters, Cu20 shows the lowest Ec-v, Ec-e and Ec-f values, while the strongest adsorption happens on the edge of Cu35 and the weakest one on Cu84 facet site. This means a scaling relation between Ec-x and Ead-x is broken in smaller systems, and both size and site are required knowing in understanding the atomic properties on small clusters.
               
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