Korean scientists are developing a powerful new sound and motion sensor that could someday give people, buildings and more the equivalent of “Spidey sense.” This isn’t some fantastical plot twist from a new Spider-Man movie, but rather a practical application of the discovery of how spider legs function in the real world.
These “crack sensors” (a.k.a. “nanoscale crack junction-based sensory systems”), which can be worn by people or placed on objects, were inspired by spiders’ crack-shaped slit organs. Residing on spider legs, these organs are made up of the spider’s stiff exoskeleton on the surface and a sort of flexible pad in the gaps, which connects directly to the spider’s nervous system.
Experts see almost endless possible applications of this new technology — for use in everything from sound recording and speech recognition to movement and sensing the earliest tremors before an earthquake. It could also be used as a wearable blood-pressure sensor and for other medical monitoring applications.
These pads are highly sensitive to sound and vibrations, and serve as an early warning system for spiders. It’s why a spider almost appears to sense when you’re going to swat it with a magazine and escapes before you can complete your swing. In other words, your tiniest movements probably triggered the creepy crawler’s built-in spider sense alert system.
In a study published Wednesday in the journal Nature, the researchers detail a remarkable example of biomimicry, which uses nature’s models as inspiration for solving human problems.
Specifically, the researchers show how to build a mechanical version of these slit-based sensors out of a 20 nanometer layer of platinum on top of a viscoelastic polymer. By deforming the platinum layer to create cracks that open to the soft polymer below, the researchers were able to measure the electrical conductance across the surface of their new sensor.
In tests comparing the sensor’s ability to recognize sound, the crack or mechanical spider sensor outperformed a microphone — at least in challenging audio conditions. When measuring a person saying “go,” “jump,” “shoot” and “stop,” the mechanical spider sensor accurately captured the words in a 92 decibel environment, while a standing microphone could not clearly record the audio.
The scientists achieved a similar result when they attached a sensor to a violin and plucked out a simple tune. It accurately measured the notes, which were converted into digital signals to recreate the tune. They also used the sensor to, when worn on a wrist, accurately measure a heartbeat.
How it’s done
According to experts, there’s good reason why this nano-crack sensor is so good, and it has everything to do with tiles.
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