Add to ORKGDNA origami based spiral structure is synthesized to realize a nanoscale spiral antenna for biomedical applications. Single strand DNA (ssDNA) origami structures utilize self-assembly techniques and short ssDNA staples to develop the desired spiral structures. This poster will discuss the methods and protocol to develop DNA origami structure. We further present several approaches to make DNA conductive. We also present a mathematical model to calculate the conductivity of nanoscale antenna
Structural DNA nanotechnology has recently gained significant momentum, as diverse design tools for ...
The specificity and simplicity of the Watson–Crick base pair interactions make DNA one of the most v...
Structural DNA nanotechnology has recently gained significant momentum, as diverse design tools for ...
DNA based nanostructures and advances in DNA origami techniques have shown great potential in fabric...
In this poster we present design and implementation of DNA biostructure as a scaffold for nanoscale ...
DNA nanotechnology represents a powerful medium for manipulating the nanoscale arrangement of functi...
Biomolecular nanotechnology, a field where biomolecules such as DNA and RNA are used as programmable...
Over the last thirty years, DNA has proven to be a great candidate for engineering nanoscale archite...
For the past three decades DNA has been exploited as building material for programmable self-assembl...
Two challenges encountered in nanotechnology are the ability to create nanostructures inexpensively ...
For the past three decades DNA has been exploited as building material for programmable self-assembl...
For the past three decades DNA has been exploited as building material for programmable self-assembl...
Two challenges encountered in nanotechnology are the ability to create nanostructures inexpensively ...
DNA nanotechnology uses the Watson-Crick base-pairing of DNA to self-assemble structures at the nano...
DNA nanotechnology offers unique control over matter on the nanoscale. Here, we extend the DNA origa...
Structural DNA nanotechnology has recently gained significant momentum, as diverse design tools for ...
The specificity and simplicity of the Watson–Crick base pair interactions make DNA one of the most v...
Structural DNA nanotechnology has recently gained significant momentum, as diverse design tools for ...
DNA based nanostructures and advances in DNA origami techniques have shown great potential in fabric...
In this poster we present design and implementation of DNA biostructure as a scaffold for nanoscale ...
DNA nanotechnology represents a powerful medium for manipulating the nanoscale arrangement of functi...
Biomolecular nanotechnology, a field where biomolecules such as DNA and RNA are used as programmable...
Over the last thirty years, DNA has proven to be a great candidate for engineering nanoscale archite...
For the past three decades DNA has been exploited as building material for programmable self-assembl...
Two challenges encountered in nanotechnology are the ability to create nanostructures inexpensively ...
For the past three decades DNA has been exploited as building material for programmable self-assembl...
For the past three decades DNA has been exploited as building material for programmable self-assembl...
Two challenges encountered in nanotechnology are the ability to create nanostructures inexpensively ...
DNA nanotechnology uses the Watson-Crick base-pairing of DNA to self-assemble structures at the nano...
DNA nanotechnology offers unique control over matter on the nanoscale. Here, we extend the DNA origa...
Structural DNA nanotechnology has recently gained significant momentum, as diverse design tools for ...
The specificity and simplicity of the Watson–Crick base pair interactions make DNA one of the most v...
Structural DNA nanotechnology has recently gained significant momentum, as diverse design tools for ...