Add to ORKGIn this paper we describe the science of electron transport through nanostructured schemas. We describe here the fabrication and characterization of quantum dot semiconductors; and their improved electronic properties. The tunnelling of electrons through the semiconductor nanostructures helps us to control the transfer modes of electrons which provides us with the numerous advantages and new applications in the field of electronics
Molecular beam epitaxy is employed to manufacture self-assembled InAs/AlAs quantum-dot resonant tunn...
This thesis presents results from experimental studies, mostly at very low temperatures, and fabrica...
Electron tunneling through a quantum dot embedded in a nanowire was studied by the transfer matrix m...
We review the orthodox theory of single charge tunneling in a semiconductor quantum dot and we exten...
A (sub) monolayer of semiconductor dots is deposited on a metal electrode. This system is used as wo...
Catalyst-assisted growth of semiconductor nanowires has opened up several new and exciting possibili...
The electric transport properties from the various nanometer scale objects are studied. The scanning...
Quantum dots (QDs) and nanocrystals (NCs) have attracted great attention for applications in nano- a...
Systems of confined electrons are found everywhere in nature in the form of atoms where the orbiting...
We demonstrate transport spectroscopy on bottom-up grown few-electron quantum dots in semiconductor ...
Several recent theoretical advances concerning semiconductor quantum dots are reviewed. First of all...
Self-organized quantum dots provide great promise for many novel electronic and optoelectronic devic...
The development of electronics has been growing at a fast rate in recent years. More and more ideas ...
In this thesis, electron transport in mesoscopic semiconductor nanostructures, in particular so-call...
We report on epitaxial growth of InAs nanowires and the steps necessary to create devices for electr...
Molecular beam epitaxy is employed to manufacture self-assembled InAs/AlAs quantum-dot resonant tunn...
This thesis presents results from experimental studies, mostly at very low temperatures, and fabrica...
Electron tunneling through a quantum dot embedded in a nanowire was studied by the transfer matrix m...
We review the orthodox theory of single charge tunneling in a semiconductor quantum dot and we exten...
A (sub) monolayer of semiconductor dots is deposited on a metal electrode. This system is used as wo...
Catalyst-assisted growth of semiconductor nanowires has opened up several new and exciting possibili...
The electric transport properties from the various nanometer scale objects are studied. The scanning...
Quantum dots (QDs) and nanocrystals (NCs) have attracted great attention for applications in nano- a...
Systems of confined electrons are found everywhere in nature in the form of atoms where the orbiting...
We demonstrate transport spectroscopy on bottom-up grown few-electron quantum dots in semiconductor ...
Several recent theoretical advances concerning semiconductor quantum dots are reviewed. First of all...
Self-organized quantum dots provide great promise for many novel electronic and optoelectronic devic...
The development of electronics has been growing at a fast rate in recent years. More and more ideas ...
In this thesis, electron transport in mesoscopic semiconductor nanostructures, in particular so-call...
We report on epitaxial growth of InAs nanowires and the steps necessary to create devices for electr...
Molecular beam epitaxy is employed to manufacture self-assembled InAs/AlAs quantum-dot resonant tunn...
This thesis presents results from experimental studies, mostly at very low temperatures, and fabrica...
Electron tunneling through a quantum dot embedded in a nanowire was studied by the transfer matrix m...