McGill University engineers have developed ultra-thin materials that can move, fold, and reshape themselves, ...

McGill University engineers have developed new ultra-thin materials that can be programmed to move, fold and reshape ...

Zhejiang University researchers build a flexible robotic hand that literally “sees around corners,” combining deep learning ...

Fluid robot motion is the result of design choices among five options including pneumatics and strain wave gears.

“Replacing traditional electric motors with soft, flexible actuators allows machines to perform tasks more safely and in ways that closely mimic the natural movement and softness of human tissue,” he ...

Researchers in China have unveiled a soft humanoid robot that can shapeshift, float, swim, ...

Researchers have made stretchable OLED displays real, marking a major step toward stretchable electronics, skin-mounted ...

A research team of The Hong Kong Polytechnic University (PolyU) has achieved a revolutionary breakthrough in smart materials, successfully developing soft magnetorheological textiles that can flexibly ...

To reliably complete household chores, assemble products and tackle other manual tasks, robots should be able to adapt their ...

A new study reveals a scalable way to manufacture soft capacitive sensors, improving customization and performance for applications in wearable and robotic systems.

New origami-based electrohydraulic actuators enhance soft robots' agility, enabling rapid, untethered movement across complex terrains with high performance.

What you need to know: Titleist introduces two new balls in the non-Pro V1 category with the completely redesigned Tour Soft ...