Modeling molecular conduction in DNA wires: Charge transfer theories and dissipative quantum transport

Research output: Preprint/Documentation/Report › Preprint

Abstract

Measurements of electron transfer rates as well as of charge transport characteristics in DNA produced a number of seemingly contradictory results, ranging from insulating behaviour to the suggestion that DNA is an efficient medium for charge transport. Among other factors, environmental effects appear to play a crucial role in determining the effectivity of charge propagation along the double helix. This chapter gives an overview over charge transfer theories and their implication for addressing the interaction of a molecular conductor with a dissipative environment. Further, we focus on possible applications of these approaches for charge transport through DNA-based molecular wires.

Details

Original languageUndefined
Publication statusPublished - 19 Apr 2006
No renderer: customAssociatesEventsRenderPortal,dk.atira.pure.api.shared.model.researchoutput.WorkingPaper

External IDs

ORCID /0000-0001-8121-8041/work/142659273

Keywords

Keywords

  • cond-mat.soft, cond-mat.mes-hall