McGill University engineers have developed ultra-thin materials that can move, fold, and reshape themselves, ...

McGill University engineers have developed new ultra-thin materials that can be programmed to move, fold and reshape ...

Researchers at McGill University have developed ultra-thin materials that can be programmed to move, fold and reshape ...

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

Soft actuation remains the key bottleneck in creating soft robots with flexible deformation and agile locomotion similar to nature creatures. Despite extensive efforts, it remains performance ...

Load-bearing structures like bridges and shelters can be made with origami modules -- versatile components that can fold compactly and adapt into different shapes -- engineers have demonstrated. For ...

Click to share on X (Opens in new window) X Click to share on Facebook (Opens in new window) Facebook Design by Sara Fang. Buy this photo. Origami is the art of paper folding, where people can make ...

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 ...

A sturdy, lightweight, powerful clamp, but without bolts or rivets... a dream. A one-piece switch? Let's see! A 25m2 panel ...

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 ...