When a knot lets go, it doesn't just fall apart. It snaps. That simple observation led Penn Engineers to rethink what a knot ...

Researchers at Penn Engineering have turned a common nuisance—a knotted string—into a high-performance, heat-activated ...

The robot is hard to see without a microscope. It’s small enough to rest on the ridge of a fingerprint and can operate in liquid for months. Inside this speck is a functioning computer, a sensor, and ...

The world's smallest fully programmable, autonomous robots have debuted at the University of Pennsylvania, sporting a brain developed at the University of Michigan. These microscopic swimming machines ...

What truly sets the Bittle X V2 apart from every other robot kit on the market is how far it can grow with you. It is easily expandable with Raspberry Pi 3, 4, or 5 with no adapters or wiring hassle ...

With their ability to shapeshift and manipulate delicate objects, soft robots could work as medical implants, deliver drugs ...

Soft robots aim to move and change shape smoothly, but they often rely on bulky motors or external systems. To overcome this, ...

US engineers develop soft robots that move without motors using liquid crystal elastomers and embedded electronics.

The high-speed, higher payload PoWa cobot family meets need for industrial-grade performance in collaborative robotics, ...