Abstract
Platinum clusters of up to 55 atoms were studied using density functional theory with a plane wave basis set. The results show that planar platinum clusters of up to nine atoms are as stable as their three-dimensional isomers and the six-atom planar cluster is, surprisingly, more stable than its three-dimensional isomers. Among the three-dimensional platinum clusters investigated in this work, the layered clusters are found to be as stable as their spherical close-packed isomers. The high stability of planar and layered clusters suggests that it is easy to grow a platinum monolayer or multilayer. The existence of many energetically possible isomers shows a fluxional structural characteristic of platinum clusters. The effect of the spin−orbit coupling was investigated, and the results show that the relative stability of the Pt clusters is not affected although the binding energy of the cluster increases if the spin−orbit coupling is included in the calculation. Most of the platinum clusters studied here show good conductivity and ferromagnetism, which make them potentially useful as high-density magnetic data storage materials. A quantitative correlation is provided between various properties of platinum clusters and the structure and size.
Keywords
PlatinumChemistryCluster (spacecraft)PlanarDensity functional theoryAtom (system on chip)MonolayerChemical physicsCrystallographyMolecular physicsComputational chemistryOrganic chemistry
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Publication Info
- Year
- 2004
- Type
- article
- Volume
- 108
- Issue
- 41
- Pages
- 8605-8614
- Citations
- 272
- Access
- Closed
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Cite This
Li Xiao,
Lichang Wang
(2004).
Structures of Platinum Clusters: Planar or Spherical?.
The Journal of Physical Chemistry A
, 108
(41)
, 8605-8614.
https://doi.org/10.1021/jp0485035
Identifiers
- DOI
- 10.1021/jp0485035