<i>In situ</i>grazing-incidence x-ray-diffraction and electron-microscopic studies of small gold clusters

Koga, Kenji; Hattori, Takeo; Ikeda, Takuji; Ohshima, Ken‐ichi

doi:10.1103/physrevb.57.4053

Cited by 43 publications

(45 citation statements)

References 35 publications

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“…Structural characterization using a variety of experimental techniques can be performed on Au clusters [62,63,64,65,66]. Experiments suggest that gold nanoclusters with diameters of 1-2 nm, corresponding to aggregates with N=20-200 atoms, are amorphous [62,63].…”

Section: B Gold Clustersmentioning

confidence: 99%

Global minima of Al_N, Au_Nand Pt_N,N⩽ 80, clusters described by the Voter–Chen version of embedded-atom potentials

Sebetci

Güvenç

2005

Modelling Simul. Mater. Sci. Eng.

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Using the basin-hopping Monte Carlo minimization approach we report the global minima for aluminium, gold and platinum metal clusters modelled by the Voter-Chen version of the embeddedatom model potential containing up to 80 atoms. The virtue of the Voter-Chen potentials is that they are derived by fitting to experimental data of both diatomic molecules and bulk metals simultaneously. Therefore, it may be more appropriate for a wide range of the size of the clusters. This is important since almost all properties of the small clusters are size dependent. The results show that the global minima of the Al, Au and Pt clusters have structures based on either octahedral, decahedral, icosahedral or a mixture of decahedral and icosahedral packing. The 54-atom icosahedron without a central atom is found to be more stable than the 55-atom complete icosahedron for all of the elements considered in this work. The most of the Al global minima are identified as some fcc structures and many of the Au global minima are found to be some low symmetric structures, which are both in agreement with the previous experimental studies.

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Section: B Gold Clustersmentioning

confidence: 99%

Global minima of Al_N, Au_Nand Pt_N,N⩽ 80, clusters described by the Voter–Chen version of embedded-atom potentials

Sebetci

Güvenç

2005

Modelling Simul. Mater. Sci. Eng.

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“…Gold clusters are currently attracting interest as the building blocks of novel nanostructured materials and devices. [1][2][3][4] During the past two decades, the structures of gold clusters have been studied both experimentally [5][6][7][8][9][10] and theoretically. [11][12][13][14][15][16][17][18][19][20][21][22] Experiments suggest that gold nanoclusters with diameters of 1 − 2 nm are amorphous.…”

mentioning

confidence: 99%

Density-functional study ofAun(n=2–20)clusters: Lowest-energy structures and electronic properties

Wang¹,

Wang²,

Zhao³

2002

Phys. Rev. B

435

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We have investigated the lowest-energy structures and electronic properties of the Aun(n = 2 − 20) clusters based on density functional theory (DFT) with local density approximation. The small Aun clusters adopt planar structures up to n = 6. Tabular cage structures are preferred in the range of n = 10 − 14 and a structural transition from tabular cage-like structure to compact near-spherical structure is found around n = 15. The most stable configurations obtained for Au13 and Au19 clusters are amorphous instead of icosahedral or fcclike, while the electronic density of states sensitively depend on the cluster geometry. Dramatic odd-even alternative behaviors are obtained in the relative stability, HOMO-LUMO gaps and ionization potentials of gold clusters. The size evolution of electronic properties is discussed and the theoretical ionization potentials of Aun clusters compare well with experiments. 36.40.Cg, 36.40.Mr,

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“…The Au lattice parameters for this deposit (a ¼ 0:4080 nm) are in agreement with the bulk gold material value. It shows that the 2 nm gold deposit is well crystallized and presents no lattice relaxation as observed in smaller aggregates [15]. The intensity ratio analysis reveals no preferential orientation.…”

Section: Structural Resultsmentioning

confidence: 95%

Structure and atoms mixing in electrodeposited Sn(Au) nanoaggregates

Kante

Andreazza

et al. 2005

Journal of Crystal Growth

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In situgrazing-incidence x-ray-diffraction and electron-microscopic studies of small gold clusters

Cited by 43 publications

References 35 publications

Global minima of Al_N, Au_Nand Pt_N,N⩽ 80, clusters described by the Voter–Chen version of embedded-atom potentials

Global minima of Al_N, Au_Nand Pt_N,N⩽ 80, clusters described by the Voter–Chen version of embedded-atom potentials

Density-functional study ofAun(n=2–20)clusters: Lowest-energy structures and electronic properties

Structure and atoms mixing in electrodeposited Sn(Au) nanoaggregates

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In situgrazing-incidence x-ray-diffraction and electron-microscopic studies of small gold clusters

Cited by 43 publications

References 35 publications

Global minima of AlN, AuNand PtN,N⩽ 80, clusters described by the Voter–Chen version of embedded-atom potentials

Global minima of AlN, AuNand PtN,N⩽ 80, clusters described by the Voter–Chen version of embedded-atom potentials

Density-functional study ofAun(n=2–20)clusters: Lowest-energy structures and electronic properties

Structure and atoms mixing in electrodeposited Sn(Au) nanoaggregates

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Product

Resources

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Global minima of Al_N, Au_Nand Pt_N,N⩽ 80, clusters described by the Voter–Chen version of embedded-atom potentials

Global minima of Al_N, Au_Nand Pt_N,N⩽ 80, clusters described by the Voter–Chen version of embedded-atom potentials