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 ...

By harnessing electron-beam patterning to control the swelling and contraction of a soft polymer, researchers created a ...

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

Octopuses are the undisputed kings of camouflage. Whereas engineers have learned to mimic the colors, octopuses also match ...

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

Researchers at Stanford University recently came up with an interesting way (Phys.org summary) to create patterns and colors ...

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

In Stanford's laboratories, a team of engineers and physicists has succeeded in bringing to life materials inspired by a ...

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