Researchers at King Abdullah University of Science
and Technology (KAUST) in Saudi Arabia have developed a new self-destruct
mechanism that can destroy electronics within 10 seconds wirelessly or by
triggering certain sensors.
The technology is based on the concept of expandable
polymers used to create a layer that can expand up to seven times its original
size when heated to temperatures above 80 degrees. The energy to produce heat
comes from the battery of a smartphone or laptop with only 500 to 600 milliwatts
enabling the polymer to expand and crumple a chip within 10 to 15 seconds.
The researchers are now planning to roll out the
technology targeting government agencies and corporations who need an extra
layer of security for computing devices that might get lost or stolen.
“The first customers would be the ones who need data
protection: Intelligence communities, corporations, banks, hedge funds, social
security administrations, collectors who handle massive data,” says Muhammad
Mustafa Hussain, an electrical engineer at KAUST.
The KAUST researchers are now working on different
models to trigger the self-destruct mechanism. One model uses GPS sensors for
the trigger if the device is moved more than 50 metres away from its starting
point. Another uses a light sensor to automatically trigger the self-destruct
mechanism when the device is illuminated by a desk lamp. That test mimics a
security scenario where a top secret device is moved out of a box and exposed
to light.
However, despite promising early results the
researchers have much more testing to do before launching the final product.
These include more localised self-destruct options that require adjustment to
the polymer layer in terms of its thickness and different heater locations
allowing it to target specific components on a device such as a laptop’s memory
chips.
“This could allow for the technology to be
retrofitted to existing laptop or desktop computers,” says Hussain. He adds
that the overall cost of adding the self-destruct security mechanism would
likely be about $15 or less, depending on volume.
Via Spectrum
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