Nucleic acid nanotechnology lays a foundation for the user-friendly design and synthesis of
DNA frameworks of any desirable shape with extreme accuracy and addressability …

This review surveys recent developments of DNA nanotechnology related to its applications
in nanoelectronics industry. The authors start with a brief introduction of DNA …

The internal design of DNA nanostructures defines how they behave in different
environmental conditions, such as endonuclease‐rich or low‐Mg2+ solutions. Notably, the …

Since its discovery in 2006, the DNA origami technique has revolutionized bottom-up
nanofabrication. This technique is simple yet versatile and enables the fabrication of …

Molecular tessellation research aims to elucidate the underlying principles that govern
intricate patterns in nature and to leverage these principles to create precise and ordered …

Hierarchical assembly of programmable DNA frameworks─ such as DNA origami─ paves
the way for versatile nanometer-precise parallel nanopatterning up to macroscopic scales …

The combination of lithographic methods with two-dimensional DNA origami self-assembly
has led, among others, to the development of photonic crystal cavity arrays and the …

In recent years, hierarchical nanostructures have found applications in fields like
diagnostics, medicine, nano-optics, and nanoelectronics, especially in challenging …

Many photonic and electronic devices rely on nanotechnology and nanofabrication, but DNA-
based approaches have yet to make a significant commercial impact in these fields even …

DNA nanotechnology is a rapidly developing field that uses DNA as a building material for
nanoscale structures. Key to the field's development has been the ability to accurately …