Add to ORKGA multitude of DNA-based nanostructures of different size and dimensionality have appeared in the literature in the last few years. The programmed self-assembly of oligodeoxynucleotides can be employed to build DNA nanostructures by design in a very successful approach towards bottom-up nanofabrication. This review paper will focus on the developments in this area of research and on some of the properties of DNA that elicited the birth of this new area of research
Complex function arises in biology from the proximity and relations amongst different functional uni...
Abstract Self-assembly is the spontaneous self-ordering of substructures into superstructures driven...
DNA nanotechnology is a rapidly evolving research area that utilizes DNA as unique construction mate...
A multitude of DNA-based nanostructures of different size and dimensionality have appeared in the ...
Deoxyribonucleic acid (DNA), as you may very well know, is the carrier of generic information in liv...
The self-assembly of oligodeoxynucleotides is a versatile and powerful tool for the construction of ...
The specificity of Watson-Crick base-pairing allows great control over the design and synthesis of a...
One of the crucial challenges in nanoscience is gaining control over the formation of the desired na...
Structural DNA nanotechnology provides unique, well-controlled, versatile, and highly addressable mo...
DNA has served as an excellent building block to self-assemble into a wide range of one-dimensional ...
Since the first introduction by Seeman in the early 1980s, structural DNA nanotechnology has been ra...
Fabrication of DNA nanostructures primarily follows two fundamental rules. First, DNA oligonucleotid...
DNA with its special base pairing capability has been proved to be one of the best material for prog...
The field of structural DNA nanotechnology has evolved remarkably—from the creation of artificial im...
DNA is the molecule that encodes the hereditary information in living organisms. In the last years, ...
Complex function arises in biology from the proximity and relations amongst different functional uni...
Abstract Self-assembly is the spontaneous self-ordering of substructures into superstructures driven...
DNA nanotechnology is a rapidly evolving research area that utilizes DNA as unique construction mate...
A multitude of DNA-based nanostructures of different size and dimensionality have appeared in the ...
Deoxyribonucleic acid (DNA), as you may very well know, is the carrier of generic information in liv...
The self-assembly of oligodeoxynucleotides is a versatile and powerful tool for the construction of ...
The specificity of Watson-Crick base-pairing allows great control over the design and synthesis of a...
One of the crucial challenges in nanoscience is gaining control over the formation of the desired na...
Structural DNA nanotechnology provides unique, well-controlled, versatile, and highly addressable mo...
DNA has served as an excellent building block to self-assemble into a wide range of one-dimensional ...
Since the first introduction by Seeman in the early 1980s, structural DNA nanotechnology has been ra...
Fabrication of DNA nanostructures primarily follows two fundamental rules. First, DNA oligonucleotid...
DNA with its special base pairing capability has been proved to be one of the best material for prog...
The field of structural DNA nanotechnology has evolved remarkably—from the creation of artificial im...
DNA is the molecule that encodes the hereditary information in living organisms. In the last years, ...
Complex function arises in biology from the proximity and relations amongst different functional uni...
Abstract Self-assembly is the spontaneous self-ordering of substructures into superstructures driven...
DNA nanotechnology is a rapidly evolving research area that utilizes DNA as unique construction mate...