Researchers have folded their way into a groundbreaking new family of origami patterns. Dubbed bloom patterns, because they resemble flowers as they unfold, the new class of origami shapes holds great ...

Programmable stiff sheets with a single low-energy folding motion have been sought in fields ranging from the ancient art of origami to modern meta-materials research. Despite such attention, only two ...

The action that's been reserved for thin, flexible materials is about to get a boost. Researchers studying the ancient art of origami have figured out some new ways to make rigid, thick structures ...

The art of origami goes back centuries — enough time to explore every possible crease that can be made in a sheet of paper, one might think. And yet, researchers have now found a new class of origami ...

Jackson isn't a scientist, but he is aware of the many places that folds appear in nature, from DNA and vital proteins, to geometric folding that changes the space we live in. Jackson is one of a ...

Smooth operator: Morph can shift between eggbox and Miura-ori origami patterns. (Courtesy: Allison Carter) An origami folding pattern that produces a highly-tuneable metamaterial has been discovered ...

In 1970, an astrophysicist named Koryo Miura conceived what would become one of the most well-known and well-studied folds in origami: the Miura-ori. The pattern of creases forms a tessellation of ...

Researchers have created a new type of origami that can morph from one pattern into a different one, or even a hybrid of two patterns, instantly altering many of its structural characteristics.

A new family of origami shapes that unfold like flower petals could be used to design more effective structures in space, like telescopes or solar panels. Origami structures, based on the Japanese ...