Experiments with conducting atomic force microscopy provide a clear demonstration of long-range charge transport in G-quadruplex DNA molecules, and allow a hopping transport model to be developed that could also be applied to other conductive polymers
Electron transport through DNA occurs over very long distances (100 Å and more). The process follows...
Determining the mechanism of charge transport through native DNA remains a challenge as different fa...
Nucleic acids and proteins are not only biologically important polymers. They have recently been rec...
After much initial controversy over the past 20 years, the mechanism of charge-transfer in DNA is no...
DNA molecules possess structure and molecular recognition properties that make them excellent candid...
After much initial controversy over the past 20 years, the mechanism of charge-transfer in DNA is no...
After much initial controversy over the past 20 years, the mechanism of charge-transfer in DNA is no...
DNA and DNA-based polymers are of interest in molecular electronics because of their versatile and p...
The need for miniaturization of devices for future nanoelectronic applications has led to the search...
Large area molecular junction-Ls "I have proven to be a robust and reliable system for studying elec...
This dissertation presents an investigation into the electrical properties of two types of G4-DNA an...
A theoretical model is presented to describe electrical transport through individual DNA molecules. ...
A theoretical model is presented to describe electrical transport through individual DNA molecules. ...
Determining the mechanism of charge transport through native DNA remains a challenge as different fa...
DNA molecules adopt many different structures including kinks, bends, bulges and distortions. The di...
Electron transport through DNA occurs over very long distances (100 Å and more). The process follows...
Determining the mechanism of charge transport through native DNA remains a challenge as different fa...
Nucleic acids and proteins are not only biologically important polymers. They have recently been rec...
After much initial controversy over the past 20 years, the mechanism of charge-transfer in DNA is no...
DNA molecules possess structure and molecular recognition properties that make them excellent candid...
After much initial controversy over the past 20 years, the mechanism of charge-transfer in DNA is no...
After much initial controversy over the past 20 years, the mechanism of charge-transfer in DNA is no...
DNA and DNA-based polymers are of interest in molecular electronics because of their versatile and p...
The need for miniaturization of devices for future nanoelectronic applications has led to the search...
Large area molecular junction-Ls "I have proven to be a robust and reliable system for studying elec...
This dissertation presents an investigation into the electrical properties of two types of G4-DNA an...
A theoretical model is presented to describe electrical transport through individual DNA molecules. ...
A theoretical model is presented to describe electrical transport through individual DNA molecules. ...
Determining the mechanism of charge transport through native DNA remains a challenge as different fa...
DNA molecules adopt many different structures including kinks, bends, bulges and distortions. The di...
Electron transport through DNA occurs over very long distances (100 Å and more). The process follows...
Determining the mechanism of charge transport through native DNA remains a challenge as different fa...
Nucleic acids and proteins are not only biologically important polymers. They have recently been rec...
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