Using a technique based on embedding in a local-orbital formalism, the electronic structure and electron transmission properties of long biological molecules may be calculated. The electronic structure is found by adding one structural unit at a time to the molecule, and calculating an embedding potential for adding the next structural unit. At present an extended Hückel scheme is used to evaluate the matrix elements. The transmission is also calculated within the embedding scheme, taking the molecule-metal contacts into account. Results for the density of states and transmission are presented for several structures of DNA. The transmission is highly energy dependent, and is also greatly influenced by the orbitals to which contact is made. ...
A semi-empirical Valence-Bond/Hartree–Fock (VB/HF) method is developed to calculate one- and two-ele...
DNA is a promising molecule for applications in molecular electronics because of its unique electron...
Electronic transport through DNA wires in the presence of a strong dissipative environment is invest...
Using a technique based on embedding in a local-orbital formalism, the electronic structure and elec...
In this thesis an efficient method has been developed for calculating the electronic structure and c...
We study the electronic properties of DNA by way of a tight-binding model applied to four particular...
AbstractWe study the electronic properties of DNA by way of a tight-binding model applied to four pa...
Measurements of electron transfer rates as well as of charge transport characteristics in DNA produc...
AbstractFirst-principles calculation of the transverse conductance across DNA fragments placed betwe...
We combine molecular dynamics simulations and density functional theory to analyze the electrical st...
ABSTRACT: The electronic structures of an entire segment of a DNA molecule were calculated in its si...
Thesis (Ph.D.)--University of Washington, 2022Understanding and controlling the electrical conductiv...
DNA is a material that has the potential to be used in nanoelectronic devices as an active component...
Large area molecular junction-Ls "I have proven to be a robust and reliable system for studying elec...
We systematically examine all the tight-binding parameters pertinent to charge transfer along DNA. T...
A semi-empirical Valence-Bond/Hartree–Fock (VB/HF) method is developed to calculate one- and two-ele...
DNA is a promising molecule for applications in molecular electronics because of its unique electron...
Electronic transport through DNA wires in the presence of a strong dissipative environment is invest...
Using a technique based on embedding in a local-orbital formalism, the electronic structure and elec...
In this thesis an efficient method has been developed for calculating the electronic structure and c...
We study the electronic properties of DNA by way of a tight-binding model applied to four particular...
AbstractWe study the electronic properties of DNA by way of a tight-binding model applied to four pa...
Measurements of electron transfer rates as well as of charge transport characteristics in DNA produc...
AbstractFirst-principles calculation of the transverse conductance across DNA fragments placed betwe...
We combine molecular dynamics simulations and density functional theory to analyze the electrical st...
ABSTRACT: The electronic structures of an entire segment of a DNA molecule were calculated in its si...
Thesis (Ph.D.)--University of Washington, 2022Understanding and controlling the electrical conductiv...
DNA is a material that has the potential to be used in nanoelectronic devices as an active component...
Large area molecular junction-Ls "I have proven to be a robust and reliable system for studying elec...
We systematically examine all the tight-binding parameters pertinent to charge transfer along DNA. T...
A semi-empirical Valence-Bond/Hartree–Fock (VB/HF) method is developed to calculate one- and two-ele...
DNA is a promising molecule for applications in molecular electronics because of its unique electron...
Electronic transport through DNA wires in the presence of a strong dissipative environment is invest...