Artificial skin heals wounds and makes robots sweat

July 01, 2020 //By Julien Happich
Artificial skin
Imagine a dressing that releases antibiotics on demand and absorbs excessive wound exudate at the same time. Researchers at Eindhoven University of Technology hope to achieve just that.

By developing a smart coating that actively releases and absorbs multiple fluids, triggered by a radio signal, the material would not only beneficial for the health care industry, it would also very promising in the field of robotics or even virtual reality. TU/e-researcher Danqing Liu, the lead author of this paper, and her PhD student Yuanyuan Zhan are inspired by the skins of living creatures. Human skin secretes oil to defend against bacteria and sweats to regulate the body temperature. A fish secretes mucus from its skin to reduce friction from the water to swim faster. Liu now presents an artificial skin: a smart surface that can actively and repeatedly release and reabsorb substances under environmental stimuli, in this case radio waves. And that is special, as in the field of smart materials, most approaches are limited to passive release.

The potential applications are numerous. Dressings using this type of material could regulate drug delivery, to administer a drug on demand over a longer time and then 're-load' with a different drug. Robots could use the layer of skin to 'sweat' for cooling themselves, which reduces the need for heavy ventilators inside their bodies. Machines could release lubricant to mechanical parts when needed. Or advanced controllers for virtual reality gaming could be made, that get wet or dry to enhance the human perception.
The basis of the material, the coating, is made of liquid-crystal molecules, well-known from LCD screens. These molecules have so-called responsive properties.


Vous êtes certain ?

Si vous désactivez les cookies, vous ne pouvez plus naviguer sur le site.

Vous allez être rediriger vers Google.