Geometrical and Electronic Structures of Gold, Silver, and Gold−Silver Binary Clusters:  Origins of Ductility of Gold and Gold−Silver Alloy Formation

Lee, Han Myoung; Ge, Maofa; Sahu, Bhagawan; Tarakeshwar, P.; Kim, Kwang S.

doi:10.1021/jp034826+

Cited by 298 publications

(236 citation statements)

References 118 publications

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“…The lowest energy geometries and the electronic properties of Au n (n = 2-10) clusters shown in Figure 1 are in good agreement with previous works [31][32][33][34][35]. The spin multiplicity, average Au-Au bond length, binding energy per atom, and the energy gap between the highest occupied molecular orbital (HOMO) and lowest unoccupied molecular orbital (LUMO) are listed in Table 1.…”

Section: The Structural and Electronic Properties Of Gold Clusterssupporting

confidence: 88%

The Interactions of Oxygen with Small Gold Clusters on Nitrogen-Doped Graphene

Chen

Sun

et al. 2013

Molecules

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By means of density functional theory, the adsorption properties of O 2 molecule on both isolated and N-graphene supported gold clusters have been studied. The N-graphene is modeled by a C 65 NH 22 cluster of finite size. The results indicate that the catalytic activity and the O 2 adsorption energies of odd-numbered Au clusters are larger than those of adjacent even-numbered ones. The O 2 molecule is in favor of bonding to the bridge sites of odd-numbered Au clusters, whereas for odd-numbered ones, the end-on adsorption mode is favored. The perpendicular adsorption orientation on N-graphene is preferred than the parallel one for Au 2 , Au 3 and Au 4 clusters, while for Au 5 , Au 6 and Au 7 , the parallel ones are favored. When O 2 is adsorbed on N-graphene supported Au clusters, the adsorption energies are largely increased compared with those on gas-phase ones. The increased adsorption energies would significantly facilitate the electron transfer from Au d-orbital to π* orbital of O 2 , which would further weakening the O-O bond and therefore enhancing the catalytic activity. The carbon atoms on N-graphene could anchor the clusters, which could make them more difficult to structural distortion, therefore enhance their stability.

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Section: The Structural and Electronic Properties Of Gold Clusterssupporting

confidence: 88%

The Interactions of Oxygen with Small Gold Clusters on Nitrogen-Doped Graphene

Chen

Sun

et al. 2013

Molecules

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“…[6][7][8]22 For example, for the Au 7 , the edge-capped rhombus with C s symmetry is 0.11 eV lower in energy than the edge-capped square with C 2v…”

Section: Resultsmentioning

confidence: 99%

Bulk fragment and tubelike structures ofAuN(N=2−26)

2005

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Using the relativistic all-electron density-functional calculations on the Au N (N =2-26) in the generalized gradient approximation (GGA), combined with the guided simulated annealing (GSA), we have found that the 2-to 3-dimensional structural transition for Au N occurs between N = 13 and 15, and the Au N (16≤ N ≤25) prefer also the pyramid-based bulk fragment structures in addition to the Au 20 . More importantly, the tube-like structures are found to be the most stable for Au 24 and Au 26 , offering another powerful structure competitor with other isomers, e.g., amorphous, bulk-fragment, and gold-fullerene. The mechanism to cause these unusual Au N may be attributed to the stronger s − d hybridization and d − d interaction enhanced by the relativistic effects.

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“…In particular, it is interesting to investigate the gold-silver alloying effect. 136 Since the 6s orbital energy of Au is almost as low as 5d orbitals, the relativistic effect-driven strong s-d hybridization in Au favours 1-D and 2-D structures in the case of small gold clusters (Fig. 5).…”

Section: Clustersmentioning

confidence: 98%

Understanding Clusters toward the Design of Functional Molecules and Nanomaterials

Singh

Lee

Choi

et al. 2007

Bulletin of the Chemical Society of Japan

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In this account, we highlight the theoretical investigations of various cluster systems comprising of water clusters, -containing clusters, and metallic clusters. We illustrate how these investigations help us understand and design structures and properties of nanowires, novel functional ionophores/receptors, and nanomaterials. Many of these theoretically predicted systems have been experimentally realized and some of the predicted structures/properties are left for the future which of course could be promising challenges for experimentalists.

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Geometrical and Electronic Structures of Gold, Silver, and Gold−Silver Binary Clusters: Origins of Ductility of Gold and Gold−Silver Alloy Formation

Cited by 298 publications

References 118 publications

The Interactions of Oxygen with Small Gold Clusters on Nitrogen-Doped Graphene

The Interactions of Oxygen with Small Gold Clusters on Nitrogen-Doped Graphene

Bulk fragment and tubelike structures ofAuN(N=2−26)

Understanding Clusters toward the Design of Functional Molecules and Nanomaterials

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