A sheet of thin plastic that emits light with an intensity that
precisely reflects the amount of pressure applied to its surface hints
at a new breed of flexible computer interface. Its creators say future
iterations of the interface could be used for robotics, car dashboards,
mobile displays, or even “interactive wallpaper.”
Described today in Nature Materials, the new light-emitting “electronic skin,” as its inventors call it, is an extension of previous work from the lab of Ali Javey,
a professor of electrical engineering and computer science at the
University of California, Berkeley. Javey’s group has developed
processes that draw heavily on traditional silicon manufacturing
techniques to uniformly and reliably integrate various organic and
inorganic components on top of plastic.
In recent years, there have been an increasing number of efforts to
make electronic devices on surfaces less rigid than the silicon wafers
used in traditional manufacturing. Flexible, bendable electronics would
open the door to a multitude of new applications, from medical sensors
that wrap around organs to foldable displays. Certain plastics can serve
as substrates for electronic systems, but reliably fabricating
complicated circuits on plastic has been a challenge.
The team previously demonstrated
a network of high-resolution pressure sensors made of nanowires arrayed
on a relatively large area of plastic, which produced an electronic
readout of pressure applied to the surface. The aim of the new work,
says Javey, was to make a pressure sensor array that could directly
interact with humans.
Javey and colleagues set out to make the electronic skin respond
optically. The researchers combined a conductive, pressure-sensitive
rubber material, organic light emitting diodes (OLEDs), and thin-film
transistors made of semiconductor-enriched carbon nanotubes to build an
array of pressure sensing, light-emitting pixels. Whereas a system with
this kind of function is relatively simple to fabricate on a silicon
surface, “for plastics, this is one of the more complex systems that has
ever been demonstrated,” says Javey. The diversity of materials and components that the researchers
combined to make the light-emitting pressure-sensor array is impressive,
says John Rogers,
a professor of materials science at the University of Illinois at
Urbana-Champaign. Rogers, whose group has produced its own impressive
flexible electronic sensors (see “Electronic Sensors Printed Directly on the Skin”),
says the result illustrates how research in nanomaterials is
transitioning from the fundamental study of components and simple
devices to the development of “sophisticated, macroscale demonstrator
devices, with unique function.” Javey says tools and schemes used to build conventional liquid
crystal displays could also be used to manufacture his group’s
electronic skin, which could in principle contain other types of sensors
and be engineered to respond in other ways. His group is also pursuing
methods for printing electronics directly onto plastic. These are at an
early stage of development, but could eventually provide a pathway to
efficiently producing very large interactive sensor arrays, says Javey.http://www.technologyreview.com/news/517271/electronic-skin-emits-light-when-pressed/
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