Novel insight into the “Sareh twist” suggests that this mechanism underlying origami tessellations could become a key element in the design of origami-inspired structures for science and engineering ...

A collaborative research team called MoonMars is developing a simple, versatile way of building off-world habitats using origami. Made of high-performance textiles, the origami bases could be ...

A study published in Nature Communications presents a way to create deployable structures that transform from compact folded states into expansive configurations with perfectly smooth surfaces.

Origami, the traditional Japanese art of paper folding, has received considerable attention in engineering. By applying paper-folding principles, researchers have created compact structures that are ...

Three DNA origami templates were designed so that quantum dots would arrange themselves (a) in the corners, (b) diagonally (three dots), and (c) in a line (four dots). NIST researchers found that ...

Origami has inspired the design of structures with unique properties, finding a huge range of potential uses, including soft robots and stretchable electronics. Now researchers from Georgia Institute ...

Kiri-origami structures combine the benefits of both origami and kirigami, incorporating their advantages while canceling their disadvantages, enabling the development of high-performance, stretchable ...

ASU researchers have designed a new method for developing load-bearing structures using a unique method: origami. Origami is not only the art of paper-folding, but is also used more widely to describe ...

The marriage of direct-printing and wet-folding origami techniques heralds a new method for creating complex three-dimensional structures for biocompatible devices, microscaffolding and other ...

In a new development in nanotechnology, a researcher at the California Institute of Technology has devised a way of weaving DNA strands into any desired two-dimensional shape or figure, which he calls ...