This 2-D nanosheet expands like a Grow Monster
Grow Monsters. Expandable water toys. Whatever you call them, they're plastic-like figurines that swell when placed in water.
Grow Monsters. Expandable water toys. Whatever you call them, they're plastic-like figurines that swell when placed in water.
Nanophysics
Apr 18, 2018
0
103
The pull-up, an exercise dreaded by most, answers a basic question: are your muscles strong enough to lift your own body weight?
Materials Science
Apr 17, 2018
3
980
Scientists are one step closer to artificial muscles. Orthotics have come a long way since their initial wood and strap designs, yet innovation lapsed when it came to compensating for muscle power—until now. A collaborative ...
Robotics
Jan 11, 2018
0
10
Soft robotics has made leaps and bounds over the last decade as researchers around the world have experimented with different materials and designs to allow once rigid, jerky machines to bend and flex in ways that mimic and ...
Engineering
Nov 27, 2017
3
544
Scientists at Nagoya University have developed a new way to make stimuli-responsive materials in a predictable manner. They used this method to design a new material, a mixture of carbon nanorings and iodine, which conducts ...
Materials Science
Jul 24, 2017
1
19
In the operating room of the future, robots will be an integral part of the surgical team, working alongside human surgeons to make surgeries safer, faster, more precise and more automated. In the lab of electrical engineering ...
Robotics
Feb 10, 2017
0
12
An artificial muscle using rubber tubing is extremely powerful but lightweight, with strong resistance to impact and vibration, allowing for the most compact and energy efficient tough robots ever created. Researchers expect ...
Robotics
Jan 26, 2017
0
6
Scientists, including several from the University of California, Riverside, have developed a transparent, self-healing, highly stretchable conductive material that can be electrically activated to power artificial muscles ...
Materials Science
Dec 25, 2016
0
2066
Artificial muscles made significant gains when a literal twist in the development approach uncovered the tensile—or stretchy—abilities of polymer fibers once they were twisted and coiled into a spring-like geometry. In ...
General Physics
Oct 31, 2016
0
1022
In recent years, researchers at The University of Texas at Dallas and colleagues at the University of Wollongong in Australia have put a high-tech twist on the ancient art of fiber spinning, using modern materials to create ...
Materials Science
Sep 26, 2016
0
154