Researchers have developed new paper-thin electronic skin, or e-skin, that responds to touch by instantly lighting up.
The more intense the pressure, the brighter the light it emits, scientists said.
A research team led by Ali Javey, University of California, Berkeley associate professor of electrical engineering and computer sciences created the first user-interactive sensor network on flexible plastic.
"With the interactive e-skin, we have demonstrated an elegant system on plastic that can be wrapped around different objects to enable a new form of human-machine interfacing," said Javey.
The latest e-skin builds on Javey's earlier work using semiconductor nanowire transistors layered on top of thin rubber sheets.
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"I could also imagine an e-skin bandage applied to an arm as a health monitor that continuously checks blood pressure and pulse rates," said study co-lead author Chuan Wang.
The experimental samples of the latest e-skin measure 16-by-16 pixels. Within each pixel sits a transistor, an organic LED and a pressure sensor, researchers said.
To create the pliable e-skin, the engineers cured a thin layer of polymer on top of a silicon wafer. Once the plastic hardened, they could run the material through fabrication tools already in use in the semiconductor industry to layer on the electronic components.
After the electronics were stacked, they simply peeled off the plastic from the silicon base, leaving a freestanding film with a sensor network embedded in it.
The study was published in the journal Nature Materials.