Add to ORKGA tight-binding (TB) treatment with the inclusion of d orbitals is applied to the electronic structures of graphitic tubes. The results show that the high angular moment bases in TB scheme are necessary to account the severe curvature effect in ultra-thin single wall carbon nanotubes, especially for properly reproducing the band edge overlap behavior in (5, 0) tube, predicted by the existing ab initio calculations. In the large diameter limit, the participation of two synnmetry-allowed d bases provides a natural replication to the recent measured electronic dispersions of valence band of graphene when the strong anisotropy due to the two-dimensional planar hexagonal sheet structure is dealt with properly. In addition, the detailed relation ...
The electronic properties of a new type of carbon nanotube, based on the graphenylene motif, are inv...
The electronic properties of a new type of carbon nanotube, based on the graphenylene motif, are inv...
Generalizing the folding method to any periodic two-dimensional planar carbon structures we have cal...
The electronic structure and optical properties of single-wall carbon nanotubes (SWCN's) have been s...
Here we present a parametrized tight-binding (TB) model to calculate the band structure of single-wa...
The electronic structures of different morphologies of carbon nanotubes are investigated within eith...
Here we present a parametrized tight-binding (TB) model to calculate the band structure of single-wa...
carbon nanotubes. The energy band structure of a carbon nanotube may ordinarily be obtained by “zone...
One- and two-dimensional bilayer systems are examples of ultra-tunable quantum materials that are co...
This thesis reports the study of electronic structures for single-walled carbon nanotubes, single la...
This work presents theoretical investigations on carbon nanotubes and specially the electronic struc...
This work presents theoretical investigations on carbon nanotubes and specially the electronic struc...
The electronic structure of carbon nanotubes containing defects is investigated within a tight-bindi...
We analyze the electronic properties of a two-dimensional electron gas rolled up into a nanotube by ...
We analyze the electronic properties of a two-dimensional electron gas rolled up into a nanotube by ...
The electronic properties of a new type of carbon nanotube, based on the graphenylene motif, are inv...
The electronic properties of a new type of carbon nanotube, based on the graphenylene motif, are inv...
Generalizing the folding method to any periodic two-dimensional planar carbon structures we have cal...
The electronic structure and optical properties of single-wall carbon nanotubes (SWCN's) have been s...
Here we present a parametrized tight-binding (TB) model to calculate the band structure of single-wa...
The electronic structures of different morphologies of carbon nanotubes are investigated within eith...
Here we present a parametrized tight-binding (TB) model to calculate the band structure of single-wa...
carbon nanotubes. The energy band structure of a carbon nanotube may ordinarily be obtained by “zone...
One- and two-dimensional bilayer systems are examples of ultra-tunable quantum materials that are co...
This thesis reports the study of electronic structures for single-walled carbon nanotubes, single la...
This work presents theoretical investigations on carbon nanotubes and specially the electronic struc...
This work presents theoretical investigations on carbon nanotubes and specially the electronic struc...
The electronic structure of carbon nanotubes containing defects is investigated within a tight-bindi...
We analyze the electronic properties of a two-dimensional electron gas rolled up into a nanotube by ...
We analyze the electronic properties of a two-dimensional electron gas rolled up into a nanotube by ...
The electronic properties of a new type of carbon nanotube, based on the graphenylene motif, are inv...
The electronic properties of a new type of carbon nanotube, based on the graphenylene motif, are inv...
Generalizing the folding method to any periodic two-dimensional planar carbon structures we have cal...