Researchers developed a hyperelastic torque reversal mechanism, enhancing soft robots' performance with rapid and powerful ...

Cornell University researchers are building soft robots with "robot blood" that is both hydraulic fluid that provides motive ...

Testing showed the robot capable of adhering to a wide variety of targets, whether they were wet, oily, gooey or dry. It can manipulate or move multiple types of objects, including tissue and ...

Researchers at Cornell University have been working on batteries that can 'flow' through the internal structures of robots, kind of like how blood in humans' veins powers our bodies.

An “octobot” less than three inches wide is changing the robotics landscape. The octobot is the world’s first completely soft, autonomous, and untethered robot. It is free of wires ...

A robot that employs the attributes of living beings rather than an android enclosed in metal. Soft robots do not necessarily look like real creatures, although some may. However, they emulate the ...

The fastest-ever swimming soft robot has been inspired by manta rays. A team of American researchers beat its own speed record by drawing inspiration from the iconic sea creatures to improve their ...

In the same way that terrestrial life evolved from ocean swimmers to land walkers, soft robots are progressing, too, thanks to recent Cornell research in battery development and design. The worm and ...

Researchers at North Carolina State University have created a soft robot that moves in a distinctly caterpillar-like manner. As detailed in the research paper in Science Advances by [Shuang Wu ...