Add to ORKGDNA molecules adopt many different structures including kinks, bends, bulges and distortions. The different structures and inappropriate physical contacts may result in the controversy of DNA conductivity reported over the last decade. In order to prove this hypothesis, an AFM based experimental method has been developed in this paper. The AFM based nanomanipulation system can be used either as a nanolithography tool to make small-gap electrodes or a nanomanipulation tool to elongate, deform and cut DNA molecules. By measuring the conductivity of DNA molecules in different shapes, it is promising to find conclusive evidences to verify the electrical conductivity of DNA molecules. © 2004 IEEE.Link_to_subscribed_fulltex
In the last two decades, the development of the atomic force microscope has progressed hand-in-hand ...
Measurements of DNA conductivity, hybridization, and melting using electronic means can have wide ap...
We present measurements of the scaling of the dielectrophoresis force with electrode size and partic...
After much initial controversy over the past 20 years, the mechanism of charge-transfer in DNA is no...
DNA electronics circuits require an efficient way to accurately position and individually manipulate...
DNA molecules possess structure and molecular recognition properties that make them excellent candid...
This dissertation presents an investigation into the electrical properties of two types of G4-DNA an...
Experiments with conducting atomic force microscopy provide a clear demonstration of long-range char...
Includes bibliographical references (pages 132-137).Maintaining Moore's law has become increasingly ...
Dielectrophoresis (DEP) is the induced motion of polarizable particles in non-uniform electric field...
Deoxyribonucleic acid (DNA), the structural basis of genetics, plays a crucial role in the life of c...
Les membres du jury. Présidente du jury : Ghislaine COULON Rapporteurs : Hélène BOUCHIAT Jean – Phil...
This thesis describes the fabrication and use of nanostructures to study the physical properties of ...
Direct conductivity measurements of thin uniform gold-coated DNA nanowires are presented. Gold-coate...
Determining the mechanism of charge transport through native DNA remains a challenge as different fa...
In the last two decades, the development of the atomic force microscope has progressed hand-in-hand ...
Measurements of DNA conductivity, hybridization, and melting using electronic means can have wide ap...
We present measurements of the scaling of the dielectrophoresis force with electrode size and partic...
After much initial controversy over the past 20 years, the mechanism of charge-transfer in DNA is no...
DNA electronics circuits require an efficient way to accurately position and individually manipulate...
DNA molecules possess structure and molecular recognition properties that make them excellent candid...
This dissertation presents an investigation into the electrical properties of two types of G4-DNA an...
Experiments with conducting atomic force microscopy provide a clear demonstration of long-range char...
Includes bibliographical references (pages 132-137).Maintaining Moore's law has become increasingly ...
Dielectrophoresis (DEP) is the induced motion of polarizable particles in non-uniform electric field...
Deoxyribonucleic acid (DNA), the structural basis of genetics, plays a crucial role in the life of c...
Les membres du jury. Présidente du jury : Ghislaine COULON Rapporteurs : Hélène BOUCHIAT Jean – Phil...
This thesis describes the fabrication and use of nanostructures to study the physical properties of ...
Direct conductivity measurements of thin uniform gold-coated DNA nanowires are presented. Gold-coate...
Determining the mechanism of charge transport through native DNA remains a challenge as different fa...
In the last two decades, the development of the atomic force microscope has progressed hand-in-hand ...
Measurements of DNA conductivity, hybridization, and melting using electronic means can have wide ap...
We present measurements of the scaling of the dielectrophoresis force with electrode size and partic...