The next generation of soft robots might be folding and sliding as effortlessly as living tissue, say a team of engineers who have created “magnetic muscles” with 3D printing. Filling elastic, ...

Soft robots have long promised something rigid machines cannot easily deliver. They offer the ability to bend, flex, and ...

Researchers at Seoul National University have developed an artificial muscle that can change shape ...

A new robotic breakthrough out of South Korea may soon turn your clothes into assistive tech. Researchers have found a way to mass-produce ultra-thin "fabric muscles" that can flex and lift like human ...

Researchers at the MIT Media Lab and Italy’s Politecnico di Bari have developed artificial muscle fibers that aim to match ...

Breaking away from conventional robots that perform only predefined functions once fabricated, researchers have developed a ...

Because the pumps and actuators are manufactured in a fiber-like geometry, they can be arranged in various configurations ...

NUS scientists have developed a self-training method that strengthens lab-grown muscle tissues around the clock, and used them to power a living-muscle robot that swims faster than any of its ...

Silent Artificial Muscles: A team of researchers has developed artificial muscles that mimic human muscles. These could ...

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 ...

(A) A user wears the EMG-driven EVF-robot. (B) The application on a smartphone serving as a user interface. (C) The pneumatic fingers embedded in an elastic textile glove. The electro-vibro-feedback ...