Magnetic graphene oxide sheets fold, move, sense motion, and switch function by swapping magnetic layers, offering a fast, reprogrammable platform for soft robots and other morphable structures.

Discover how metamaterials (engineered structures that defy nature’s limits) are driving breakthroughs in earthquake safety, ...

Advanced 3D printing techniques create flexible origami robots with high magnetic responsiveness, paving the way for biomedical applications and soft robotics.

This video showcases the first half of the build process for 3D patterned cutting boards made from maple, walnut, and cherry.

Human health is the Achilles heel of space travel. Researchers at ETH Zurich have now succeeded in printing complex muscle ...

To most people, a 3D printer is a cool piece of technology that can make toys, tools or parts in minutes. But for Hala Ali, ...

The gas giant WASP-18b belongs to a class known as ultra-hot Jupiters — giant, searing, gaseous planets that orbit perilously close to their stars. Researchers used a new technique 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 ...

Abstract: Knowledge of a protein's subcellular location is essential to a complete understanding of its functions. Automated interpretation methods for protein location patterns are needed for ...