EPFL engineers unveil a detachable robotic hand that crawls into tight spaces, grips objects both ways, and returns ...

A deep-sea catshark (Scyliorhinus haeckelii) documented at 198 meters on the outer edge of the continental shelf, near the ...

EPFL's robotic appendage features fingers that bend both ways and is designed to retrieve objects from spaces too hazardous ...

The symmetrical design and flexible fingers mean that the robot can transport objects on either side of its body. For humans, ...

A robotic hand developed at EPFL surpasses the limits of human dexterity with a dual-thumbed, reversible-palm design that can ...

This rarely seen glass octopus bared all recently — even a view of its innards — when an underwater robot filmed it ...

St Vincent’s is only the second hospital in Australia to operate the Da Vinci Single Port system, following a site in ...

The Visual Effects Society has officially announced the nominees for this year's Annual Visual Effects Society Awards.

Inspired by the remarkable camouflage abilities of octopus and cuttlefish, Stanford researchers have developed a soft material that can rapidly shift its surface texture and color at extremely fine ...

Researchers developed a color-changing material that alters both surface texture and appearance in seconds, inspired by ...

Octopus-inspired synthetic skin shifts color and texture via nanoscale patterning, pointing to displays, camouflage, and soft robots.

Researchers have developed a flexible material that can quickly change its surface texture and colors, offering potential applications in camouflage, art, robotics, and nanoscale bioengineering.