Novel caged clusters of silicon: Fullerenes, Frank-Kasper polyhedron and cubic
TLDR
A review of metal encapsulated caged clusters of Si and Ge obtained from computer experiments based on an ab initio pseudopotential method can be found in this article, where it is shown that one M atom changes drastically the properties of Si/Ge clusters and that depending upon the size of the M atom, cages of 14, 15, and 16 Si as well as Ge atoms are formed.Abstract:
We review recent findings of metal (M) encapsulated caged clusters of Si and Ge obtained from computer experiments based on an
ab initio pseudopotential method. It is shown that one M atom changes drastically the properties of Si and Ge clusters and that depending upon the size of the M atom, cages of 14, 15, and 16 Si as well as Ge atoms are formed. In particular M@Si16 silicon fullerene has been obtained for M= Zr and Hf, while a Frank-Kasper polyhedron has been obtained for M@X16, X = Si and Ge. These clusters show high stability and large highest occupied-lowest unoccupied molecular orbital (HOMO-LUMO) gaps which are likely to make these species strongly abundant. A regular icosahedral M@X12 cluster has also been obtained for X = Ge and Sn by doping a divalent M atom. Interactions between clusters are rather weak. This is attractive for developing self-assembled cluster materials.read more
Citations
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Structural, magnetic and electronic properties of Fe encapsulated by silicon clusters
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TL;DR: In this article, a density functional theory with generalized gradient approximation was used to determine stable structure and their electronic and magnetic properties for SinFe (9 ⩽ n ©� 12 ) clusters, and it was shown that the encapsulation of Fe atoms within silicon clusters leads to stable Fe encapsulated Si clusters comparatively to the clusters with the same size of pure silicon.
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Novel silicon-carbon fullerene-like cages
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Method for smoothing a solid surface
TL;DR: In this paper, a method of irradiating a gas cluster ion beam on a solid surface and smoothing the solid surface was proposed, where the angle formed between the solid surfaces and the GCL ion beam was chosen to be between 1° and an angle less than 30°.
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Electronic and stability characters of endohedral Zn@Sin and exohedral SinHn (n = 20, 30, 40, 50, 60) fullerenes: A DFT approach
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A density functional study of silicon fullerene endohedral X@Si20F20 and exohedral X-Si20F20 (X=O2−, S2−, Se2−) complexes
TL;DR: In this paper, the structure and electronic properties of three stable endohedral X@Si 20 F 20 and exohedral O 2− -complexes were reported, where the guest anion was placed between two silicon atoms and forming two Si-X bonds.
References
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