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 …

Free enzymes employed as biological catalysts have many advantages such as low reaction
time, involving low energy and less waste output when compared to conventional chemical …

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

Combining nanotechnology with other science disciplines is necessary to produce various
materials with nanoscale structural and functional information, which is nanoarchitectonics …

In the 25 years since its Nobel Prize in chemistry, supramolecular chemistry based on
molecular recognition has been paid much attention in scientific and technological fields …

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 …

Fabrication of ultrasmall functional machines and their integration within ultrasmall areas or
volumes can be useful for creation of novel technologies. The ultimate goal of the …

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 …

Intracellular organization is a key factor in cell metabolism. Cells have evolved various
organizational systems to solve the challenges of toxic pathway intermediates, competing …