The structure and energetics of AgN clusters (N=210) adsorbed on a double vacancy (DV) neutral defect of a MgO(100) terrace are investigated via a density-functional basin-hopping approach. It is found that Ag8 is a surface magic cluster from both electronic and structural points of view, i.e., it exhibits enhanced stability with respect to neighboring sizes and a large highest occupied molecular orbitallowest unoccupied molecular orbital gap. The possibility of synthesizing monodisperse Ag8/DV/MgO(100) clusters is discussed. The first ionization potential, the electron affinity, and the interaction energies with atomic and molecular oxygen are evaluated for the adsorbed Ag clusters, showing that Ag8 exhibits appreciable differences in its electronic and chemical properties with respect to neighboring sizes.
Magic silver cluster on a MgO(100) terrace with defects
Barcaro G;Fortunelli A
2007
Abstract
The structure and energetics of AgN clusters (N=210) adsorbed on a double vacancy (DV) neutral defect of a MgO(100) terrace are investigated via a density-functional basin-hopping approach. It is found that Ag8 is a surface magic cluster from both electronic and structural points of view, i.e., it exhibits enhanced stability with respect to neighboring sizes and a large highest occupied molecular orbitallowest unoccupied molecular orbital gap. The possibility of synthesizing monodisperse Ag8/DV/MgO(100) clusters is discussed. The first ionization potential, the electron affinity, and the interaction energies with atomic and molecular oxygen are evaluated for the adsorbed Ag clusters, showing that Ag8 exhibits appreciable differences in its electronic and chemical properties with respect to neighboring sizes.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
