Add to ORKGDroplet epitaxy (DE) is a growth method which can create III-V quantum dots (QDs) whose optoelectronic properties can be accurately controlled through the crystallisation conditions. In this work, GaAs/AlGaAs DE-QDs have been analyzed with the complimentary techniques of crosssectional scanning tunneling microscopy and atom probe tomography. Structural details and a quantitative chemical analysis of QDs of different sizes are obtained. Most QDs were found to be pure GaAs, while a small proportion exhibited high intermixing caused by a local etching process. Large QDs with a high aspect ratio were observed to have an Al-rich crown above the GaAs QD. This structure is attributed to differences in mobility of the cations during the capping pha...
We present the results of an investigation into the growth of InGaSb/GaAs quantum dots (QDs) by mole...
A number of methods for investigating the structure and composition of quantum dots are discussed, w...
We report the structural analysis at the atomic scale of GaAs/AlGaAs quantum wires and quantum dots ...
Droplet epitaxy (DE) is a growth method which can create III-V quantum dots (QDs) whose optoelectron...
The fundamental understanding of quantum dot (QD) growth mechanism is essential to improve QD based ...
In this letter we have performed a structural analysis at the atomic scale of GaAs/AlGaAs quantum do...
We investigated metal-organic vapor phase epitaxy grown (InGa)(AsSb)/GaAs/GaP Stranski–Krastanov qua...
Quantum dots have sparked a remarkable amount of interest in device development and the understandin...
Lattice mismatch between Si and III-V compounds is main limitation for integration of III-V compound...
This study compares cross-sectional scanning tunneling microscopy and atom probe tomography. We use ...
In recent years, epitaxial growth of self-assembled quantum dots has offered a way to incorporate ne...
We present the results of an investigation into the growth of InGaSb/GaAs quantum dots (QDs) by mole...
A number of methods for investigating the structure and composition of quantum dots are discussed, w...
We report the structural analysis at the atomic scale of GaAs/AlGaAs quantum wires and quantum dots ...
Droplet epitaxy (DE) is a growth method which can create III-V quantum dots (QDs) whose optoelectron...
The fundamental understanding of quantum dot (QD) growth mechanism is essential to improve QD based ...
In this letter we have performed a structural analysis at the atomic scale of GaAs/AlGaAs quantum do...
We investigated metal-organic vapor phase epitaxy grown (InGa)(AsSb)/GaAs/GaP Stranski–Krastanov qua...
Quantum dots have sparked a remarkable amount of interest in device development and the understandin...
Lattice mismatch between Si and III-V compounds is main limitation for integration of III-V compound...
This study compares cross-sectional scanning tunneling microscopy and atom probe tomography. We use ...
In recent years, epitaxial growth of self-assembled quantum dots has offered a way to incorporate ne...
We present the results of an investigation into the growth of InGaSb/GaAs quantum dots (QDs) by mole...
A number of methods for investigating the structure and composition of quantum dots are discussed, w...
We report the structural analysis at the atomic scale of GaAs/AlGaAs quantum wires and quantum dots ...