DNA has become one of the most extensively used molecular building blocks for
engineering self-assembling materials. DNA origami is a technique that uses hundreds of …

DNA origami has emerged as a powerful method to generate DNA nanostructures with
dynamic properties and nanoscale control. These nanostructures enable complex …

With the total amount of worldwide data skyrocketing, the global data storage demand is
predicted to grow to 1.75× 1014 GB by 2025. Traditional storage methods have difficulties …

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 origami enables the precise fabrication of nanoscale geometries. We demonstrate an
approach to engineer complex and reversible motion of nanoscale DNA origami machine …

In this review, we introduce two kinds of bio-related nanoarchitectonics, DNA
nanoarchitectonics and cell-macromolecular nanoarchitectonics, both of which are basically …

The spatially controlled positioning of functional materials by self-assembly is one of the
fundamental visions of nanotechnology. Major steps towards this goal have been achieved …

DNA is one of the most promising materials for nanobiotechnology, and the present review
article aims to describe recent advances in the self-assembly of functional DNA …

The advent of DNA origami technology greatly simplified the design and construction of
nanometer‐sized DNA objects. The self‐assembly of a DNA‐origami structure is a …

Any modern information system is expected to feature a set of primordial features and
functions: a substrate stably carrying data; the ability to repeatedly write, read, erase, reload …