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 structures were folded from flat sheets of direct-printed titanium hydride ink, a technique pioneered by University of Illinois researchers. (Image Courtesy of Bok Yoep Ahn) Origami structures ...

Researchers recently shared details on creating foldable, self-locking structures by using multi-material 3D printing. These origami-inspired designs can transition between flat and three-dimensional ...

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 ...

DNA origami cages constrain individual proteins toward preferred orientations on electrodes, dramatically improving electrical measurement precision and enabling detection of subtle structural changes ...

DNA, the medium of life, is so deeply associated with the biochemical world that considering its nonbiological applications may seem far-fetched. However, for researchers in the 1980s and 1990s ...

Thought LeadersEbbe Sloth Andersen, Ph.D.Associate Professor, iNANOAarhus University In this interview, AZoNano speaks with Associate Professor Ebbe Sloth Andersen from Aarhus University about a new ...

Stretchable electronics are used in smartphones, smartwatches, curved displays, and wearable sensors. However, stretchable materials like elastomers have lower electrical performance than rigid ...

Researchers develop hybrid kiri-origami structures that enable the fabrication of high-performance stretchable electronics using non-stretchable materials. (Nanowerk News) Stretchable electronics are ...