快猫短视频

Power dressing

YOUR sweater could one day provide all the power you need to run your MP3
player, mobile phone or palmtop computer鈥攁s long as you鈥檙e not standing in
a darkened room, that is. The idea comes from scientists in Germany, who have
developed synthetic fibres that generate electricity when exposed to light. The
researchers say the fibres could be woven into machine-washable clothes to make
the ultimate in portable solar cells.

The discovery may provide a big boost for developers of wearable computers,
who鈥檝e been plugging their devices into mini fuel cells or plain old batteries.
A sail made of solar fabric might even be able to provide power for a boat鈥檚
electronics, says Martin Rojahn of the Institute of Physical Electronics at the
University of Stuttgart.

Just like the photovoltaic cells found in many pocket calculators, the new
wires work by sandwiching three layers of non-crystalline 鈥渁morphous鈥 silicon
between two conducting electrodes. The top layer is doped with electron-rich
impurities while the bottom layer contains electron-poor dopants. The layer
sandwiched in between is not doped. When photons hit the surface layer, they
displace electrons that then flow through the middle layer to the electron-poor
layer. This current can be used to power devices or charge batteries.

Rojahn, Markus Schubert and Michail Rakhlin developed their photovoltaic
fibres while trying to deposit amorphous silicon on curved surfaces. They found
that by depositing different layers around a fibre, they could build up the
photovoltaic sandwich in cylindrical form. 鈥淎ny substrate that looks like a
cylinder, from wires to fibre-optic cables, will work,鈥 says
Rojahn鈥攑rovided it can withstand the ultraviolet radiation and 100 掳C
temperatures used in the deposition process.

One of the biggest challenges facing the German team is creating contacts
with each strand in a fabric, says Chris Chapman, development director of
ElectroTextiles in Buckinghamshire鈥攁 company which specialises in making
electronic devices out of fabric. 鈥淭he thing that scuppers most things with
fabrics is getting power in and out of it,鈥 he says.

Rojahn, who will present his findings at the Materials Research Society
conference in San Francisco next week, admits there are a number of issues that
need further work.

Solar cells based on amorphous silicon are less efficient than their
crystalline cousins, but they still have many advantages, says Rojahn. Besides
being flexible, amorphous silicon is about a thousand times better at absorbing
sunlight than the crystalline form. 鈥淎morphous silicon is also much cheaper than
crystalline silicon,鈥 he adds.

As far as fashion sense is concerned, colour shouldn鈥檛 be a
problem, explains Rojahn. Although the fibre is transparent, it can be made to
take on different colours by adjusting the thickness of a transparent protective
coating. 鈥淒epending upon the thickness of the layer, it could be made to look
blue, brown or greenish,鈥 he says. So let鈥檚 hope that either blue, brown or
green is the new black.

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