Add to ORKGCommunication in Physical Sciences, 2020, 7(3): 164-173 Authors: Onyekwere O. Ikedichukwu and Oriaku I. Chijioke* Received: 12 August 2021/Accepted 09 September 2021 Quantum confinements in spherical semiconductor quantum dots (QDs) have been theoretically studied using the Particle in a box Model based on the effective mass approximation and quantum confinement effects. The valence band degeneracy in Г point of the Brillouin zone and the effective mass anisotropy are also taken into account. The emission intensity spectrum was also investigated to understand the effect of alloy composition(x) on the spectrum. The results show that the ground state confinement energy is largely dependent on the radius of the dot and alloy composition(...
The quantum confinement for a conduction-band electron within a spherical quantum dot is investigate...
The outcome of particle size effect on Photoluminescence has been investigated theoretically for CdS...
In this thesis the electronic and optical properties of semiconductor quantum dots are investigated ...
Abstract: The ground state confinement energy and its associated wavelength as a function of radius ...
A theoretical investigation on how the band structure of bulk semiconductors specifically affects th...
International audienceExperimental results obtained previously for the photoluminescence efficiency ...
We calculate the optical properties of nitride-based quantum dots by taking into account quantum con...
Within the framework of effective-mass approximation, the exciton states localized in cylindrical In...
Semiconductor quantum dots (QDs) are of great topical interest due to the possibility to study basic...
Quantum effects at the nanometric level have been observed in many confined structures, and partic-u...
In this paper we present a comprehensive and detailed analysis of carrier/exciton wave function exte...
The present work achieves an understanding of the interplay between morphology, electronic, and opti...
This work is an investigation into the electronic behaviour of semiconductor quantum dots, particula...
In this paper we present a comprehensive and detailed analysis of carrier/exciton wave function exte...
Recently, III−V quantum dots (QDs) emerged as an environmentally friendly alternative to CdSe; howev...
The quantum confinement for a conduction-band electron within a spherical quantum dot is investigate...
The outcome of particle size effect on Photoluminescence has been investigated theoretically for CdS...
In this thesis the electronic and optical properties of semiconductor quantum dots are investigated ...
Abstract: The ground state confinement energy and its associated wavelength as a function of radius ...
A theoretical investigation on how the band structure of bulk semiconductors specifically affects th...
International audienceExperimental results obtained previously for the photoluminescence efficiency ...
We calculate the optical properties of nitride-based quantum dots by taking into account quantum con...
Within the framework of effective-mass approximation, the exciton states localized in cylindrical In...
Semiconductor quantum dots (QDs) are of great topical interest due to the possibility to study basic...
Quantum effects at the nanometric level have been observed in many confined structures, and partic-u...
In this paper we present a comprehensive and detailed analysis of carrier/exciton wave function exte...
The present work achieves an understanding of the interplay between morphology, electronic, and opti...
This work is an investigation into the electronic behaviour of semiconductor quantum dots, particula...
In this paper we present a comprehensive and detailed analysis of carrier/exciton wave function exte...
Recently, III−V quantum dots (QDs) emerged as an environmentally friendly alternative to CdSe; howev...
The quantum confinement for a conduction-band electron within a spherical quantum dot is investigate...
The outcome of particle size effect on Photoluminescence has been investigated theoretically for CdS...
In this thesis the electronic and optical properties of semiconductor quantum dots are investigated ...