Researchers are continuing to make progress on developing a new synthetic material that behaves like biological muscle, an ...

Soft robots are only as capable as the artificial muscles that drive them, and for years those muscles have forced a trade-off between strength and flexibility. A new magnetic polymer design is ...

(Nanowerk Spotlight) Precision in drug delivery has long posed a significant challenge to the medical field. Relying on the body’s circulatory system to transport medications often results in ...

A new machine-learning technique can train and control a reconfigurable soft robot that can dynamically change its shape to complete a task. The researchers also built a simulator that can evaluate ...

Asoft-bodied humanoid robot developed in China can stretch its limbs to more than three times their original length, shrink ...

Researchers have demonstrated a caterpillar-like soft robot that can move forward, backward and dip under narrow spaces. The caterpillar-bot's movement is driven by a novel pattern of silver nanowires ...

Formless 'slime' robots that shape-change to complete complex tasks – it sounds like science fantasy. However, MIT researchers have developed a machine-learning technique that brings shape-changing ...

A spinning 3D printer nozzle creates soft robots with built-in air channels that bend in programmed directions, turning flat ...

The authors with their robot. From left to right: Alberto Comoretto, Harmannus A.H. Schomaker, Johannes T.B. Overvelde. A research team from AMOLF in Amsterdam created a soft robot that walks, hops, ...

Most robots rely on complex control systems, AI-powered or otherwise, that govern their movement. These centralized electronic brains need time to react to changes in their environment and produce ...