From cells that migrate to tissues that heal, nature abounds with systems capable of sensing and adapting to their ...
Researchers have invented a new super agile robot that can cleverly change shape thanks to amorphous characteristics akin to ...
Researchers have invented a new super agile robot that can cleverly change shape thanks to amorphous characteristics akin to ...
Inspired by the human eye, our biomedical engineering lab at Georgia Tech has designed an adaptive lens made of soft, ...
After vocal cord surgery, many patients develop stiff vocal folds that impact their ability to speak. Hydrogels can help prevent this by promoting healing, but delivering hydrogels to the vocal cords ...
Developed by a team led by researchers from North Carolina State University, these "metabots" are capable of moving around a ...
A soft robotic system uses liquid crystal elastomers to merge shape shifting, gripping, and color change, demonstrating fully ...
Researchers unveil molecular strategies that enable materials to move, transform, and self-assemble—bridging chemistry and ...
In response to a short pulse of near-infrared light, the robot released the pebble. Further, the light produced heat triggered a shape change that forced the robot to unfold. The robot then returned ...
The future of home help has arrived. NEO, the worlds first humanoid home robot, is now available for pre-order. It can walk, ...