Add to ORKGWe study a model for polaron-like charge transportmechanism along DNA molecules with emphasis on the impact of parametrical and structural disorder. Our model Hamiltonian takes into account the coupling of the charge carrier to two different kind of modes representing fluctuating twist motions of the base pairs and H-bond distortions within the double helix structure of −DNA. Localized stationary states are constructed with the help of a nonlinear map approach for a periodic double helix and in the presence of intrinsic static parametrical and/or structural disorder reflecting the impact of ambient solvent coordinates. It is demonstrated that charge transport is mediated by moving polarons respectively breather compounds carrying ...
We present a detailed study of the charge transport characteristics of double-stranded DNA oligomers...
In this work, we approach the impact of dynamic and static disorder on DNA charge transfer from a th...
Modeling charge transport along molecular wires immersed in polarizable environments poses a grand c...
For the detailed understanding of the conduction mechanism in DNA we use models based on the concep...
We study the transport of charge due to polarons in a model of DNA which takes in account its 3D st...
The fact that loosely bonded DNA bases could tolerate large structural fluctuations, form a dissipat...
The fact that loosely bonded DNA bases could tolerate large structural fluctuations, form a dissipat...
We address various regimes of charge transfer in DNA within the framework of the Peyrard-Bishop-Hols...
We investigate the charge transport in synthetic DNA polymers built up from single types of base pa...
We present a theoretical analysis of the effects of the environment on charge transport in double-st...
AbstractWe study the electronic properties of DNA by way of a tight-binding model applied to four pa...
We study by first-principles molecular dynamics the mechanism of electron hole (positive charge) loc...
We study the electronic properties of DNA by way of a tight-binding model applied to four particular...
Long-range oxidative damage to DNA has been demonstrated in experiments using a variety of remotely ...
The Peyrard-Bishop-Holstein model has been previously introduced as an appropriate framework for the...
We present a detailed study of the charge transport characteristics of double-stranded DNA oligomers...
In this work, we approach the impact of dynamic and static disorder on DNA charge transfer from a th...
Modeling charge transport along molecular wires immersed in polarizable environments poses a grand c...
For the detailed understanding of the conduction mechanism in DNA we use models based on the concep...
We study the transport of charge due to polarons in a model of DNA which takes in account its 3D st...
The fact that loosely bonded DNA bases could tolerate large structural fluctuations, form a dissipat...
The fact that loosely bonded DNA bases could tolerate large structural fluctuations, form a dissipat...
We address various regimes of charge transfer in DNA within the framework of the Peyrard-Bishop-Hols...
We investigate the charge transport in synthetic DNA polymers built up from single types of base pa...
We present a theoretical analysis of the effects of the environment on charge transport in double-st...
AbstractWe study the electronic properties of DNA by way of a tight-binding model applied to four pa...
We study by first-principles molecular dynamics the mechanism of electron hole (positive charge) loc...
We study the electronic properties of DNA by way of a tight-binding model applied to four particular...
Long-range oxidative damage to DNA has been demonstrated in experiments using a variety of remotely ...
The Peyrard-Bishop-Holstein model has been previously introduced as an appropriate framework for the...
We present a detailed study of the charge transport characteristics of double-stranded DNA oligomers...
In this work, we approach the impact of dynamic and static disorder on DNA charge transfer from a th...
Modeling charge transport along molecular wires immersed in polarizable environments poses a grand c...