June 15, 2017 by Bob Yirka report
A team of researchers at
Sungkyunkwan University in South Korea has developed a type of adhesive patch
that works under a variety of conditions including underwater. In their paper
published in the journal Nature, the team describes how they studied octopus
suction cups to design a better patch for human applications.
In their search to create a
better adhesive patch, the
researchers looked to suction cups used by octopuses to grip objects and prey.
They mimicked the suction cups by creating polymer sheets with cup-like dimples
with soft spheres in the middle of each. They then tested differently sized
dimples and spheres and found that 50 micrometer dimples offered the best grip,
which, as it turned out, was the one closest to that used by an octopus in its underwater world.
To better understand how the suction cups worked, the researchers studied their
own creations under a microscope and discovered the secret to the octopus grip
is water getting trapped beneath the sphere near the back edges of the
cup—it creates a vacuum chamber when pressure is released.
In testing the patches, the
researchers found them able to attach and detach up to 1000 times without the
need for replenishment—and without the need for adhesive materials. This, the
team notes, makes them a much better option for skin patches as anyone who has
used an adhesive patch can attest. Removing sticky patches can be painful,
particularly if they have been used to cover a wound. The researchers report
also that the patch could adhere to many surfaces, both flat and curved,
including skin. And of course, it stuck just as well when the skin was wet.
Perhaps most interesting was the fact that the vacuum also allowed the suction
cup to work underwater.
The patches the group made were
simple rectangular sheets of dimpled plastic with tiny spheres in the middle of
each, anchored to the sheet. The patches adhered when pressure was applied. Of
course, for the patch to be used in medical or industrial applications a means
for releasing the pressure created by the vacuum must be found, perhaps one
based on the way an octopus releases its grip.
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