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Self-erasing chips could thwart counterfeit tech - Futurity: Research News

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Self-erasing chips could help stop counterfeit electronics or provide alerts if sensitive shipments are tampered with, researchers report.

The chips rely on a new material that temporarily stores energy, changing the color of the light it emits. It self-erases in a matter of days, or users can erase it on demand with a flash of blue light.

“It’s very hard to detect whether a device has been tampered with. It may operate normally, but it may be doing more than it should, sending information to a third party,” says Parag Deotare, assistant professor of electrical engineering and computer science at the University of Michigan.

The letters U and M appear in yellow, green, and blue against a dark blue background
This message will self-destruct in seven days, or it can be erased with a flash of blue light. Written with UV light, the letters are marked out by molecules that shrink by storing energy, stretching the atoms of the semiconductor above. This shifts the light emitted by the semiconductor to longer wavelengths, represented in the visible spectrum by yellow on a blue background. (Credit: Che-Hsuan Cheng, Excitonics and Photonics Lab/U. Michigan.

With a self-erasing bar code printed on the chip inside the device, the owner could get a hint if someone had opened it to secretly install a listening device. Alternatively, a bar code could be written and placed on integrated circuit chips or circuit boards, for instance, to prove that they hadn’t been opened or replaced on their journey.

Likewise, if the lifespan of the bar codes was extended, they could be written into devices as hardware analogues of software authorization keys.

Secret messages

The self-erasing chips are built from a three-atom-thick layer of semiconductor laid atop a thin film of molecules based on azobenzenes—a kind of molecule that shrinks in reaction to UV light. Those molecules tug on the semiconductor in turn, causing it to emit slightly longer wavelengths of light.

To read the message, you have to look at it with the right kind of light. Che-Hsuan Cheng, a doctoral student in material science and engineering in Deotare’s group and the first author of the study in Advanced Optical Materials, is most interested in its application as self-erasing invisible ink for sending secret messages.

The stretched azobenzene naturally gives up its stored energy over the course of about seven days in the dark—a time that can be shortened with exposure to heat and light, or lengthened if stored in a cold, dark place.

Whatever was written on the chip, be it an authentication bar code or a secret message, would disappear when the azobenzene stopped stretching the semiconductor. Alternatively, it can be erased all at once with a flash of blue light. Once erased, the chip can record a new message or bar code.

‘Scotch tape method’

The semiconductor itself is a “beyond graphene” material, says Deotare, as it has many similarities with the Nobel Prize-winning nanomaterial. But it can also do something graphene can’t: It emits light in particular frequencies.

Da Seul Yang, a doctoral student in macromolecular science and engineering, designed and made the molecules. Cheng then floated a single layer of the molecules on water and dipped a silicon wafer into the water to coat it with the molecules.

Then, the chip went to Deotare’s lab where scientists layered it with the semiconductor. Using the “Scotch tape” method, Cheng essentially put sticky tape on a chunk of the semiconductor, tungsten diselenide, and used it to draw off single layers of the material: a sandwich of a single layer of tungsten atoms between two layers of selenium atoms. He used a kind of stamp to transfer the semiconductor onto the azobenzene-coated chip.

The researchers will next extend the amount of time that the material can keep the message intact for use as an anti-counterfeit measure.

The Air Force Office of Scientific Research funded the work. The University of Michigan has applied for patent protection and is seeking commercial partners to help bring the technology to market.

Source: University of Michigan

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