Yasuhiro Hirata scite author profile

The energetics and the electronic and magnetic properties of iridium nanoparticles in the range of 2-64 atoms were investigated using density functional theory calculations. A variety of different geometric configurations were studied, including planar, three-dimensional, nanowire, and single-walled nanotube. The binding energy per atom increases with size and dimensionality from 2.53 eV/atom for the iridium dimer to 6.09 eV/atom for the 64-atom cluster. The most stable geometry is planar until four atoms are reached and three-dimensional thereafter. The simple cubic structure is the most stable geometric building block until a strikingly large 48-atom cluster, when the most stable geometry transitions to face-centered cubic, as found in the bulk metal. The strong preference for cubic structure among small clusters demonstrates their rigidity. This result indicates that iridium nanoparticles intrinsically do not favor the coalescence process. Nanowires formed from linear atomic chains of up to 4-atom rings were studied, and the wires formed from 4-atom rings were extremely stable. Single-walled nanotubes were also studied. These nanotubes were formed by stacking 5- and 6-atom rings to form a tube. The ring stacking with each atom directly above the previous atom is more stable than if the alternate rings are rotated.

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The simple cubic structure of Ir clusters and the element effect on cluster structures

Zhang

Xiao

Hirata

et al. 2004

Chemical Physics Letters

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2151) Analysis on Spaced Truss composed of Square Pyramiel Pyrmid Units(Structure)

Kato¹,

Tabanashi²,

Hirata³

1963

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2081) Analysis on Spaced Truss Composed of Square Pyramid Units : Experimental Analysis on H.P. Shaped Truss

Hirata¹

1966

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A difficulty in vibration test operation.

Onoda¹,

Tomizawa²,

Hirata³

et al. 1987

Journal of the Japan Society for Aeronautical and Space Science

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Yasuhiro Hirata

Studies of Iridium Nanoparticles Using Density Functional Theory Calculations

The simple cubic structure of Ir clusters and the element effect on cluster structures

2151) Analysis on Spaced Truss composed of Square Pyramiel Pyrmid Units(Structure)

2081) Analysis on Spaced Truss Composed of Square Pyramid Units : Experimental Analysis on H.P. Shaped Truss

A difficulty in vibration test operation.

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