We present theoretical calculations of type II CdSe/CdTe quantum dots systems. We use an 8-band k.p Hamiltonian that includes spin-orbit interaction, strain, and first order piezoelectric effects. Exciton and bi-exciton states are found using the configuration interaction (CI) method that explicitly includes the effects of the Coulomb interaction, as well as exchange and correlation effects between many-electron configurations. We study convergence of the CI Hamiltonian with respect to the number of single particle states used in creation of the Hamiltonian. We show that there is a very strong correlation between the dielectric constant of the environment and exciton and bi-exciton energies
It has been recently reported that multi-shell type-II quantum dot nanocrystals (QDNCs) have higher ...
AbstractThe electronic structures of CdSe/CdTe type II colloidal quantum dots are predicted using a ...
Biexciton properties in semiconductor nanostructures are highly sensitive to quantum confinement, re...
We present theoretical calculations of type II CdSe/CdTe quantum dots systems. We use an 8-band k.p ...
We present theoretical calculations of type II CdSe/CdTe quantum dots systems. We use an 8-band k.p ...
We present theoretical calculations of type II CdSe/CdTe quantum dots systems. We use an 8-band k.p ...
We present theoretical calculations of type II CdSe/CdTe quantum dots systems. We use an 8-band k.p ...
We present a method for calculating exciton and bi-exciton energies in type-II colloidal quantum dot...
We present a method for calculating exciton and bi-exciton energies in type-II colloidal quantum dot...
We present a method for calculating exciton and bi-exciton energies in type-II colloidal quantum dot...
We present a theoretical method for calculations of exciton and bi-exciton energies in type-II coll...
Controlled reduction of graphene oxide is an alternative and promising method to tune the electronic...
Controlled reduction of graphene oxide is an alternative and promising method to tune the electronic...
Controlled reduction of graphene oxide is an alternative and promising method to tune the electronic...
We theoretically study the effect of the dielectric environment on the exciton ground state of CdSe ...
It has been recently reported that multi-shell type-II quantum dot nanocrystals (QDNCs) have higher ...
AbstractThe electronic structures of CdSe/CdTe type II colloidal quantum dots are predicted using a ...
Biexciton properties in semiconductor nanostructures are highly sensitive to quantum confinement, re...
We present theoretical calculations of type II CdSe/CdTe quantum dots systems. We use an 8-band k.p ...
We present theoretical calculations of type II CdSe/CdTe quantum dots systems. We use an 8-band k.p ...
We present theoretical calculations of type II CdSe/CdTe quantum dots systems. We use an 8-band k.p ...
We present theoretical calculations of type II CdSe/CdTe quantum dots systems. We use an 8-band k.p ...
We present a method for calculating exciton and bi-exciton energies in type-II colloidal quantum dot...
We present a method for calculating exciton and bi-exciton energies in type-II colloidal quantum dot...
We present a method for calculating exciton and bi-exciton energies in type-II colloidal quantum dot...
We present a theoretical method for calculations of exciton and bi-exciton energies in type-II coll...
Controlled reduction of graphene oxide is an alternative and promising method to tune the electronic...
Controlled reduction of graphene oxide is an alternative and promising method to tune the electronic...
Controlled reduction of graphene oxide is an alternative and promising method to tune the electronic...
We theoretically study the effect of the dielectric environment on the exciton ground state of CdSe ...
It has been recently reported that multi-shell type-II quantum dot nanocrystals (QDNCs) have higher ...
AbstractThe electronic structures of CdSe/CdTe type II colloidal quantum dots are predicted using a ...
Biexciton properties in semiconductor nanostructures are highly sensitive to quantum confinement, re...