Scientists Develop Self-Healing, Highly Stretchable Material that Can Be Electrically Activated

Scientists have developed a self-healing, highly stretchable, transparent material that can be used to power artificial muscles. 
The end product is a soft, rubber-like material that's easy to produce at low cost. It can stretch to 50 times its original length, and can heal itself from a scissor cut in the space of 24 hours at room temperature. 
Just 5 minutes after being cut, the material can stretch to two times its original length again – not a bad power for a comic book superhero to have. 
The material is also an ionic conductor - capable of conducting electricity through the flow of ions - and this is the first time scientists have combined self-healing properties in an ionic conductor. 
The team from the University of California, Riverside and the University of Colorado say it could ultimately be used in robotics, electronic devices, batteries, and biosensors. 
"Creating a material with all these properties has been a puzzle for years," says researcher and lifelong Wolverine fan, Chao Wang from UC Riverside. 
While transparent and stretchable ionic conductors have been developed before, adding self-healing properties has proved tricky – to get a material to self-heal, you usually need non-covalent bonds between the individual molecules, which can't share electrons. 
Passing electricity through these bonds degrades them, which is a problem if you're trying to keep your self-healing material capable of self-healing. 
To find a solution, Wang used ion-dipole interactions to hold the molecules together, which combine charged ions with polar molecules – where one end of the molecule has a positive charge and the other a negative. 
The small electrical imbalance in both these types of molecule creates an electrostatic attraction between them. So by mixing a high-ionic-strength salt to a stretchable polar polymer, Wang and his colleagues were able to produce a material with the properties they needed.

Source: QNA