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 tiles provide a promising technique for assembling structures with nanoscale resolution
through self-assembly by basic interactions rather than top-down assembly of individual …

Self-assembled DNA nanostructures enable nanometre-precise patterning that can be used
to create programmable molecular machines,,,, and arrays of functional materials,,. DNA …

The paper-folding mechanism has been widely adopted in building of reconfigurable
macroscale systems because of its unique capabilities and advantages in programming …

Within cells, nanostructures are often organized using local assembly rules that produce
long-range order,. Because these rules can take into account the cell's current structure and …

DNA origami tilings provide methods for creating complex molecular patterns and shapes
using flat DNA origami structures as building blocks. Square tiles have been developed to …

An orthogonal, noncovalent approach to direct the assembly of higher-order DNA origami
nanostructures is described. By incorporating perfluorinated tags into the edges of DNA …

DNA nanotechnology has paved the way for new generations of programmable
nanomaterials. Utilizing the DNA origami technique, various DNA constructs can be …

An essential motif for the assembly of biological materials such as actin at the scale of
hundreds of nanometers and beyond is a network of one-dimensional fibers with well …

Nanomedicine in gel or particle formation holds considerable potential for enhancing
passive and active targeting within ocular drug delivery systems. The complex barriers of the …