Engineers have developed a new soft magnetic hydrogel that can be 3D-printed into microscopic structures.

Engineers at MIT have devised an ingenious new way to produce artificial muscles for soft robots that can flex in more than one direction, similar to the complex muscles in the human body. The team ...

Add Yahoo as a preferred source to see more of our stories on Google. It has been a long endeavor to create biohybrid robots – machines powered by lab-grown muscle as potential actuators. The ...

Researchers' new fabrication technique can produce soft, microscopic structures with magnetically activated moving parts.

In order to reach their full potential, soft robotic devices can't just consist of rigid electronic components encased in squishy rubber. A new material could help in that regard, as it's soft, ...

Researchers from MIT, EPFL, and the University of Cincinnati have developed a 3D-printed soft magnetic hydrogel enabling microscopic robots to move and deform independently under magnetic control. The ...

Embodying intelligence into materials requires engineering systems that can autonomously sense, adapt, and respond to environmental stimuli, similar to the dynamic behaviours of living organisms.

A team of researchers from the University of Waterloo has recently unveiled a groundbreaking development in medical robots. These scientists have engineered a series of advanced materials set to serve ...

Forbes contributors publish independent expert analyses and insights. I'm a senior tech contributor who writes about science and technology MIT CSAIL researchers have developed a new system that ...

Researchers have achieved a tremendous breakthrough in the field of soft robotics, creating a bot using water-based hydrogen material, so as to allow it to be patterned, folded, and manipulated to ...