DNA is a promising molecule for applications in molecular electronics because of its unique electronic and self-assembly properties. Here we report that the conductance of DNA duplexes increases by approximately one order of magnitude when its conformation is changed from the B-form to the A-form. This large conductance increase is fully reversible, and by controlling the chemical environment, the conductance can be repeatedly switched between the two values. The conductance of the two conformations displays weak length dependencies, as is expected for guanine-rich sequences, and can be fit with a coherence-corrected hopping model. These results are supported by ab initio electronic structure cal-culations that indicate that the highest occ...
AbstractFirst-principles calculation of the transverse conductance across DNA fragments placed betwe...
Understanding the interplay between the electrical and mechanical properties of DNA molecules is imp...
Conductor or insulator? The debate about the conductivity of DNA have been recently revived due to c...
DNA is a promising molecule for applications in molecular electronics because of its unique electron...
DNA is an attractive material for a range of applications in nanoscience and nanotechnology, and it ...
We present a tight-binding study of conformation dependent electronic transport properties of DNA do...
This work investigates how the conductance of a nucleic acid duplex with a “nick” in its backbone co...
DNA molecules possess structure and molecular recognition properties that make them excellent candid...
In order to interpret recent experimental studies of the dependence of conductance of ds-DNA as the ...
DNA structural stability and programmability offer innumerable degrees of freedom for the design and...
We present the evolution of current-voltage characteristics measured on linear fragments of deoxyrib...
abstract: Extensive evidence has shown that long-range charge transport can occur along double helic...
Using a technique based on embedding in a local-orbital formalism, the electronic structure and elec...
Charge transport at the molecular scale builds the cornerstone of molecular electronics (ME), a nove...
We study the electronic properties of DNA by way of a tight-binding model applied to four particular...
AbstractFirst-principles calculation of the transverse conductance across DNA fragments placed betwe...
Understanding the interplay between the electrical and mechanical properties of DNA molecules is imp...
Conductor or insulator? The debate about the conductivity of DNA have been recently revived due to c...
DNA is a promising molecule for applications in molecular electronics because of its unique electron...
DNA is an attractive material for a range of applications in nanoscience and nanotechnology, and it ...
We present a tight-binding study of conformation dependent electronic transport properties of DNA do...
This work investigates how the conductance of a nucleic acid duplex with a “nick” in its backbone co...
DNA molecules possess structure and molecular recognition properties that make them excellent candid...
In order to interpret recent experimental studies of the dependence of conductance of ds-DNA as the ...
DNA structural stability and programmability offer innumerable degrees of freedom for the design and...
We present the evolution of current-voltage characteristics measured on linear fragments of deoxyrib...
abstract: Extensive evidence has shown that long-range charge transport can occur along double helic...
Using a technique based on embedding in a local-orbital formalism, the electronic structure and elec...
Charge transport at the molecular scale builds the cornerstone of molecular electronics (ME), a nove...
We study the electronic properties of DNA by way of a tight-binding model applied to four particular...
AbstractFirst-principles calculation of the transverse conductance across DNA fragments placed betwe...
Understanding the interplay between the electrical and mechanical properties of DNA molecules is imp...
Conductor or insulator? The debate about the conductivity of DNA have been recently revived due to c...