Electronic structures, equilibrium geometries, and finite-temperature properties of Nan „n=39–55... from first principles
نویسندگان
چکیده
Density-functional theory has been applied to investigate systematics of sodium clusters Nan in the size range of n=39–55. A clear evolutionary trend in the growth of their ground-state geometries emerges. The clusters at the beginning of the series n=39–43 are symmetric and have partial icosahedral two-shell structure. The growth then goes through a series of disordered clusters n=44–52 where the icosahedral core is lost. However, for n 53, a three-shell icosahedral structure emerges. This change in the nature of the geometry is abrupt. In addition, density-functional molecular dynamics has been used to calculate the specific heat curves for the representative sizes n=43, 45, 48, and 52. These results along with already available thermodynamic calculations for n=40, 50, and 55 enable us to carry out a detailed analysis of the heat capacity curves and their relationship with respective geometries for the entire series. Our results clearly bring out strong correlation between the evolution of the geometries and the nature of the shape of the heat capacities. The results also firmly establish the size-sensitive nature of the heat capacities in sodium clusters.
منابع مشابه
Effects of geometric and electronic structure on the finite temperature behavior
We report the equilibrium geometries and the electronic structures of Nan clusters in the size range of n =55–62 using density-functional method. An analysis of the evolutionary trends in their ground state geometries reveals that Na58 has a spherical shape which is driven by the closed-shell nature of the electronic structure. This structure shows a significant large network connected by short...
متن کاملFirst principles studies on band structures and density of states of graphite surface oxides
Graphite oxide constitutes carbon network with oxygen atoms both on hexagonal arrangement and the edge sites. Structural and electronic properties for graphite-oxygen complexes have been explored using first-principles total-energy calculations within the local density approximation (LDA). Band structures and density of states for the propose carbon 3D models are reported. A finite energy gap and...
متن کاملFirst principles studies on band structures and density of states of graphite surface oxides
Graphite oxide constitutes carbon network with oxygen atoms both on hexagonal arrangement and the edge sites. Structural and electronic properties for graphite-oxygen complexes have been explored using first-principles total-energy calculations within the local density approximation (LDA). Band structures and density of states for the propose carbon 3D models are reported. A finite energy gap and...
متن کاملStructure and electronic properties of single–walled zigzag BN and B3C2N3 nanotubes using first-principles methods
The structure and the electronic properties of single-walled zigzag BN and B3C2N3 nanotubes (n, 0; n=4–10) were investigated using first-principles calculations based on a density functional theory. A plane–wave basis set with periodic boundary conditions in conjunction with Vanderbilt ultrasoft pseudo-potential was employed. The energy gap of ZB3C<su...
متن کاملFirst Principle Study of MC (M= Al, Ga, and In) at Equilibrium and under Negative Stress
The electronic and magnetic properties of the hypothetical compounds of MC (M=Al, Ga and In) are investigated by using first-principle calculations and pseudopotential plane wave self-consistent field method based on density functional theory. In order to find the most stable phase of MC (M=Al, Ga and In), we study them in zinc-blende (ZB), rocksalt (RS), wurtzite and NiAs crystal structures. W...
متن کامل