A team of researchers at the University of Cambridge are getting
closer. Their idea is to harvest energy from wasted light in an OLED
display. They are working on technology where users will not need to
plug in their smartphones for recharging at least as often. In their
project, an OLED screen uses solar cells to absorb scattered and wasted
light, sending it back into the screen.
A thin-film system harvests energy from wasted light in an OLED display.
IEEE Fellow Arokia Nathan along with the Cambridge team have
developed a prototype device that converts ambient light into
electricity. Solar cells used in the prototype are made of thin film
hydrogenated amorphous silicon, within the smartphone screen.
Only around 36 percent of the light produced by an OLED display is
projected forwards; the rest escapes around the edges, in the form of
scatter and bleeding from the edges. The researchers worked on a
solution where they could harvest what’s lost by installing photovoltaic
cells on the back and sides of OLED screens to capture the loss.
They also worked out a solution—a thin-film transistor circuit--to even out the voltage spikes produced by the solar cells,
as fluctuations in the voltage provided by the solar cell could damage
the phone’s battery. The device captures both ambient light and the
otherwise wasted screen light leaking around the edges.
According to reports, the team worked with the energy group at
Cambridge's Centre for Advanced Photonics and Electronics to integrate a
thin-film supercapacitor for intermediate energy storage.
The end result is a system that makes use of photovoltaics,
transistors, and supercapacitor. The system would achieve an efficiency
of 11 percent and peak efficiency, 18 percent.
The numbers, for the smartphone user, would promise at least less
strain on their battery. The Cambridge team’s effort is not promising
“never-again” recharging but an ability for the user to save a fraction
of power.
More work is ahead. The team is exploring different circuit designs
and materials with the aim of increasing the energy harvesting system’s
efficiency. Nathan has said other energy scavenging schemes such as MEMS
based kinetic energy harvesting may bring improvements.
From physorg.
3 comments:
Awesome! Would be great if I could get an Electricians in Cambridge to sort this out for me so I don't have to pay any more obscene electricity bills.
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