We introduce a method based on directed molecular self-assembly to manufacture and electrically characterise C-shape gold nanowires which clearly deviate from typical linear shape due to the design of the template guiding the assembly. To this end, gold nanoparticles are arranged in the desired shape on a DNA-origami template and enhanced to form a continuous wire through electroless deposition. C-shape nanowires with a size below 150nm on a SiO 2/ Si substrate are contacted with gold electrodes by means of electron beam lithography. Charge transport measurements of the nanowires show hopping, thermionic and tunneling transports at different temperatures in the 4.2K to 293K range. The different transport mechanisms indicate that the C-shape...
Magnesium-ion-mediated RNA−RNA loop−receptor interactions, in conjunction with gold nanoparticles de...
DNA origami based spiral structure is synthesized to realize a nanoscale spiral antenna for biomedic...
This work examines the metallization of folded DNA, known as DNA origami, as an enabling step toward...
We introduce a method based on directed molecular self-assembly to manufacture and electrically char...
Bottom-up nanofabrication is increasingly making use of self-assembled DNA to fabricate nanowires an...
The use of self-assembly techniques may open new possibilities in scaling down electronic circuits t...
This work demonstrates the use of a circuit-like DNA origami structure as a template to fabricate co...
This work deals with the production and characterization of gold nanowires. Employing ion track-etch...
Nanowire arrays and networks with precisely controlled patterns are very interesting for innovative ...
Direct conductivity measurements of thin uniform gold-coated DNA nanowires are presented. Gold-coate...
Gold nanowire arrays with different sizes were fabricated by electrochemical deposition in etched io...
We have developed different electrochemical procedures for the production of gold nanowires with var...
This work demonstrates a highly specific and selective assembly of multisegmented nanowires on prepa...
In this thesis, the potential applications of DNA self-assembled structures were explored in both n...
We report the electrochemical growth of gold nanowires with controlled dimensions and crystallinity....
Magnesium-ion-mediated RNA−RNA loop−receptor interactions, in conjunction with gold nanoparticles de...
DNA origami based spiral structure is synthesized to realize a nanoscale spiral antenna for biomedic...
This work examines the metallization of folded DNA, known as DNA origami, as an enabling step toward...
We introduce a method based on directed molecular self-assembly to manufacture and electrically char...
Bottom-up nanofabrication is increasingly making use of self-assembled DNA to fabricate nanowires an...
The use of self-assembly techniques may open new possibilities in scaling down electronic circuits t...
This work demonstrates the use of a circuit-like DNA origami structure as a template to fabricate co...
This work deals with the production and characterization of gold nanowires. Employing ion track-etch...
Nanowire arrays and networks with precisely controlled patterns are very interesting for innovative ...
Direct conductivity measurements of thin uniform gold-coated DNA nanowires are presented. Gold-coate...
Gold nanowire arrays with different sizes were fabricated by electrochemical deposition in etched io...
We have developed different electrochemical procedures for the production of gold nanowires with var...
This work demonstrates a highly specific and selective assembly of multisegmented nanowires on prepa...
In this thesis, the potential applications of DNA self-assembled structures were explored in both n...
We report the electrochemical growth of gold nanowires with controlled dimensions and crystallinity....
Magnesium-ion-mediated RNA−RNA loop−receptor interactions, in conjunction with gold nanoparticles de...
DNA origami based spiral structure is synthesized to realize a nanoscale spiral antenna for biomedic...
This work examines the metallization of folded DNA, known as DNA origami, as an enabling step toward...