Geometric, electronic, and bonding properties of AuNM (N=1-7, M=Ni, Pd, Pt) clusters -: art. no. 114310

Employing first-principles methods, based on density functional theory, we report the ground state geometric and electronic structures of gold clusters doped with platinum group atoms, AuNM (N = 1-7, M = Ni, Pd, Pt). The stability and electronic properties of Ni-doped gold clusters are similar to that of pure gold clusters with an enhancement of bond strength. Due to the strong d-d or s-d inter play between impurities and gold atoms originating in the relativistic effects and unique properties of dopant delocalized s-electrons in Pd- and Pt-doped gold clusters, the dopant atoms markedly change the geometric and electronic properties of gold clusters, and stronger bond energies are. found in Pt-doped clusters.. The Mulliken populations analysis of impurities and detailed decompositions of bond energies as well as a variety of density of states of the, most stable dopant gold clusters are given to understand the different effects of individual dopant atom on bonding and electronic properties of dopant gold clusters. From the electronic properties of, dopant gold clusters, the different chemical reactivity toward O-2, CO, or NO molecule is predicted in transition metal-doped gold clusters compared to pure gold clusters. (c) 2005 American Institute of Physics.