DNA is traditionally known as a central genetic biomolecule in living systems. From an
alternative perspective, DNA is a versatile molecular building-block for the construction of …

DNA is one of the most fascinating biopolymers. Besides its central role as carrier of genetic
information and translation of the genetic code into proteins, DNA holds great promise as a …

DNA molecules have been used to build a variety of nanoscale structures and devices over
the past 30 years, and potential applications have begun to emerge. But the development of …

DNA is the molecule that stores and transmits genetic information in biological systems. The
field of DNA nanotechnology takes this molecule out of its biological context and uses its …

The combination of synthetic stable branched DNA and sticky-ended cohesion has led to the
development of structural DNA nanotechnology over the past 30 years. The basis of this …

The rules of nucleic acid base-pairing have been used to construct nanoscale architectures
and organize biomolecules, but little has been done to apply this technology in vivo. We …

DNA metallization has witnessed tremendous growth and development, from the initial
simple synthesis aimed at manufacturing conductive metal nanowires to the current …

The assembly of nanoparticles into three-dimensional (3D) architectures could allow for
greater control of the interactions between these particles or with molecules. DNA tubes are …

Synthesizing molecular tubes with monodisperse, programmable circumferences is an
important goal shared by nanotechnology, materials science, and supermolecular chemistry …

Scaffolded DNA origami has proven to be a versatile method for generating functional
nanostructures with prescribed sub-100 nm shapes. Programming DNA-origami tiles to form …