And
video-game companies
could use
the new lenses to
immerse players
in a virtual world
without restricting
their range of
motion.
A team led by
Babak Parviz, assistant
professor
of electrical engineering at the University
of Washington, used manufacturing
techniques at the microscopic
level to combine a flexible, biologically
safe contact lens with an imprinted
electronic circuit and lights. Such an electronic lens overlays a head-up
display on the user’s visual field.
“This is a very small step, but I think it’s extremely promising,” says
Parviz. The prototype device contains an electric circuit as well as red
LEDs for a display, which is not yet functional. Installing or removing
the bionic lenses should be as easy as popping a contact lens in or out,
says Parviz.
Building the lenses was a challenge because materials that are safe
for use in the body, such as the flexible organic materials in contact
lenses, are delicate. Manufacturing electrical circuits, however, involves
inorganic materials, extreme temperatures, and toxic chemicals.
Researchers built the circuits from layers of metal only a few nanometers
thick. They constructed LEDs one-third of a millimeter across
and placed the electrical components onto a sheet of flexible plastic.
The shape of each tiny component dictates which piece it attaches to,
a microfabrication technique known as self-assembly. Capillary forces
— the same forces that drive water upward in plants — pull the pieces
together.
The prototype lens does not correct the wearer’s vision, but the
technique could be used on corrective lenses, Parviz says. And all the
gadgetry won’t obstruct a person’s view.
“There is a large area outside the transparent part of the eye for
placing instrumentation,” Parviz says. Future improvements could add
wireless communication. Researchers hope to power the electronics
with radio-frequency power and solar cells on the lens.
A full-fledged display won’t be available for a while, but a basic version
could be operational soon.