A team of researchers from North Carolina State University has created a new 3D-printing method that builds paper-thin ...

Long before screens and styluses, entertainment came in the form of folded paper. One square. No cuts. No glue. Just folds. That’s all it took to create animals ...

Because it's costly and cumbersome to transport large structures such as satellite dishes into space, aerospace Ph.D. student ...

Researchers develop a new 3D-printing method to create ultra-thin magnetic films that bring origami-based soft robots to life ...

Advanced 3D printing techniques create flexible origami robots with high magnetic responsiveness, paving the way for ...

Insects that tuck away their wings using origami creases have inspired foldable structures for drones and solar panels that ...

A team led by aerospace Ph.D. student Ivan Wu and his advisor Jeff Baur has developed a low-energy, scalable technique that ...

Abstract: Multifingered robot hands have the ability to manipulate and grasp various objects, like a human hand. In previous studies, we have looked at paper folding operations (Origami) as an example ...

Interdisciplinary Nanoscience Center (iNANO), Aarhus University, Gustav Wieds Vej 14, 8000 Aarhus C, Denmark Center for Cellular Signal Patterns (CellPAT), Aarhus University, Gustav Wieds Vej 14, 8000 ...

A new 3-D printing technique can create paper-thin "magnetic muscles," which can be applied to origami structures to make them move. By infusing rubber-like elastomers with materials called ...

Abstract: The origami principle of folding planar sheets into functional three-dimensional devices promises a future with increased compactness and reconfigurability of biomedical robots. To inspire ...