Add to ORKGThis dissertation presents a generalized quantum chemical approach for electron transport in molecular electronic devices based on Green's function scattering theory. It allows to describe both elastic and inelastic electron transport processes at first principles levels of theory, and to treat devices with metal electrodes either chemically or physically bonded to the molecules on equal footing. Special attention has been paid to understand the molecular length dependence of current-voltage characteristics of molecular junctions. Effects of external electric fields have been taken into account non-perturbatively, allowing to treat electrochemical gate-controlled single molecular field effect transistors for the first time. Inelastic electr...
The theoretical work carried out in this thesis presents the electrical properties of two different ...
One of the central problems of molecular electronics is to understand electron conduction properties...
Self-assembled nanostructures, composed of inorganic and organic materials, have multiple applicatio...
This dissertation presents a generalized quantum chemical approach for electron transport in molecul...
A generalized quantum chemical approach for electron transport in molecular devices is developed. It...
Molecular electronics is an active research area for the future information technology. The fabricat...
In this thesis, a combination of density functional theory (DFT) based calculations and nonequilibri...
In this thesis I concentrate on the description of electron transport properties of microscopic obje...
As silicon-based microelectronics approaches its fundamental physical limit, molecular electronics i...
Rapid progress of nanotechnology requires developing novel theoretical methods to explain complicate...
This thesis presents the theoretical studies of electronic transport in molecular electronic devices...
This thesis presents the theoretical studies of electronic transport in molecular electronic devices...
Modern electronics technology has reached a very sophisticated stage. Require-ments for smaller and ...
Title: Electronic, mechanical and transport properties of molecular junctions Author: Narendra Prabh...
Electron transport through single molecule connected to the electrodes is an interesting problem fro...
The theoretical work carried out in this thesis presents the electrical properties of two different ...
One of the central problems of molecular electronics is to understand electron conduction properties...
Self-assembled nanostructures, composed of inorganic and organic materials, have multiple applicatio...
This dissertation presents a generalized quantum chemical approach for electron transport in molecul...
A generalized quantum chemical approach for electron transport in molecular devices is developed. It...
Molecular electronics is an active research area for the future information technology. The fabricat...
In this thesis, a combination of density functional theory (DFT) based calculations and nonequilibri...
In this thesis I concentrate on the description of electron transport properties of microscopic obje...
As silicon-based microelectronics approaches its fundamental physical limit, molecular electronics i...
Rapid progress of nanotechnology requires developing novel theoretical methods to explain complicate...
This thesis presents the theoretical studies of electronic transport in molecular electronic devices...
This thesis presents the theoretical studies of electronic transport in molecular electronic devices...
Modern electronics technology has reached a very sophisticated stage. Require-ments for smaller and ...
Title: Electronic, mechanical and transport properties of molecular junctions Author: Narendra Prabh...
Electron transport through single molecule connected to the electrodes is an interesting problem fro...
The theoretical work carried out in this thesis presents the electrical properties of two different ...
One of the central problems of molecular electronics is to understand electron conduction properties...
Self-assembled nanostructures, composed of inorganic and organic materials, have multiple applicatio...