We study the electronic properties of DNA by way of a tight-binding model applied to four particular DNA sequences. The charge transfer properties are presented in terms of localization lengths (crudely speaking, the length over which electrons travel). Various types of disorder, including random potentials, are employed to account for different real environments. We have performed calculations on poly(dG)-poly(dC), telomeric-DNA, random-ATGC DNA, and l-DNA. We find that random and l-DNA have localization lengths allowing for electron motion among a few dozen basepairs only. A novel enhancement of localization lengths is observed at particular energies for an increasing binary backbone disorder. We comment on the possible biological releva...
We present a model to describe electrical conductivity along the DNA double helix. In this model, DN...
In this work we investigate the electronic transport along model disordered DNA molecules using an e...
Electronic coupling of the stacked heterocyclic base pairs in DNA duplexes makes DNA a promising bio...
AbstractWe study the electronic properties of DNA by way of a tight-binding model applied to four pa...
ABSTRACT We study the electronic properties of DNA by way of a tight-binding model applied to four p...
We are investigating the electronic properties of DNA by looking at a tight-binding model and four D...
In this work we report the study of conformation dependent electronic transport properties of DNA do...
Electronic properties of DNA are believed to play a crucial role in many phenomena in living organis...
We study electronic transport in long DNA chains using the tight-binding approach for a ladder-like ...
We present a theoretical analysis of the effects of the environment on charge transport in double-st...
The fact that loosely bonded DNA bases could tolerate large structural fluctuations, form a dissipat...
DNA-based electron transfer reactions are seen in processes such as biosynthesis and radiation damag...
Large area molecular junction-Ls "I have proven to be a robust and reliable system for studying elec...
Using a technique based on embedding in a local-orbital formalism, the electronic structure and elec...
For the detailed understanding of the conduction mechanism in DNA we use models based on the concep...
We present a model to describe electrical conductivity along the DNA double helix. In this model, DN...
In this work we investigate the electronic transport along model disordered DNA molecules using an e...
Electronic coupling of the stacked heterocyclic base pairs in DNA duplexes makes DNA a promising bio...
AbstractWe study the electronic properties of DNA by way of a tight-binding model applied to four pa...
ABSTRACT We study the electronic properties of DNA by way of a tight-binding model applied to four p...
We are investigating the electronic properties of DNA by looking at a tight-binding model and four D...
In this work we report the study of conformation dependent electronic transport properties of DNA do...
Electronic properties of DNA are believed to play a crucial role in many phenomena in living organis...
We study electronic transport in long DNA chains using the tight-binding approach for a ladder-like ...
We present a theoretical analysis of the effects of the environment on charge transport in double-st...
The fact that loosely bonded DNA bases could tolerate large structural fluctuations, form a dissipat...
DNA-based electron transfer reactions are seen in processes such as biosynthesis and radiation damag...
Large area molecular junction-Ls "I have proven to be a robust and reliable system for studying elec...
Using a technique based on embedding in a local-orbital formalism, the electronic structure and elec...
For the detailed understanding of the conduction mechanism in DNA we use models based on the concep...
We present a model to describe electrical conductivity along the DNA double helix. In this model, DN...
In this work we investigate the electronic transport along model disordered DNA molecules using an e...
Electronic coupling of the stacked heterocyclic base pairs in DNA duplexes makes DNA a promising bio...