A research team affiliated with UNIST has unveiled a new type of artificial muscle that can seamlessly transition from soft ...

Imagine a material that can behave like both soft rubber and hard steel—stretchy and gentle when needed, yet powerful enough ...

Most robots rely on rigid, bulky parts that limit their adaptability, strength, and safety in real-world environments. Researchers developed soft, battery-powered artificial muscles inspired by human ...

The stiffened artificial muscle can support up to 5 kilograms (11 pounds) — roughly “4,000 times its own weight.” The muscle ...

According to its developers, this transition — much like rubber transforming into steel — occurs when the artificial muscle ...

(Nanowerk News) We move thanks to coordination among many skeletal muscle fibers, all twitching and pulling in sync. While some muscles align in one direction, others form intricate patterns, helping ...

It has been a long endeavor to create biohybrid robots – machines powered by lab-grown muscle as potential actuators. The flexibility of biohybrid robots could allow them to squeeze and twist through ...

Swedish researchers have developed a breakthrough 3D printing method to create soft actuators. These dielectric elastic actuators (DEA) are made from silicone-based materials, combining conductive ...

Demonstrating 3 times greater actuation stroke and 2 times higher work capacity than existing photochemical actuators, the new light-responsive springs outperform mammalian muscles and enable ...

Future robots could soon have a lot more muscle power. Northwestern University engineers have developed a soft artificial muscle, paving the way for untethered animal- and human-scale robots. The new ...

MIT engineers grew an artificial, muscle-powered structure that pulls both concentrically and radially, much like how the iris in the human eye acts to dilate and constrict the pupil. We move thanks ...