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Breakthrough in solar panel manufacture promises cheap energy within a decade
un article par Steve Connor, The Independent
A breakthrough in the production of solar cells will make the next
generation of solar panels cheaper and safer, and promises to
accelerate the development of solar energy over the next decade,
scientists said. 
Photovoltaic solar panels on the roof of the Chint Group office building in Hangzhou, Zhejiang Province, China
click on photo to enlarge
A technical advance based on an edible salt used in the
manufacture of tofu could revolutionise the production of future
solar panels to make them less expensive, more flexible and easier
to use than the current models seen on millions of roofs across
Britain.
Researchers believe they have found a way of overcoming one of
the most serious limitations of the next generation of solar panels,
which are based on toxic cadmium chloride, by simply adding
magnesium chloride, an abundant salt found in seawater.
A study has shown that the solar cells produced with magnesium
chloride – which is also found in bath salts as well as used to
coagulate soya milk into tofu – work just as efficiently as
conventional cadmium cells but at a fraction of the cost and with
much lower toxicity.
“We certainly believe it’s going to make a big change to the costs of
these devices. The cost of solar is going to match fossil fuels
eventually but this is going to get us there quicker,” said Jon Major
of the University of Liverpool, who led the research.
“Magnesium chloride is incredibly low-cost and it’s simply
recovered from seawater. It’s used to de-ice roads in winter and it’s
completely harmless and non-toxic. We’ve managed to replace a
highly expensive, toxic material with one that’s completely benign
and low cost,” Dr Major said.
About 90 per cent of the solar panels currently in use are made of
photovoltaic cells composed of silicon semiconductors, which
convert sunlight directly into electricity. However, silicon is not
good at absorbing sunlight which is why the next generation of PV
cells will be based on a thin coating of cadmium telluride, which
absorbs sunlight so well that it only needs to be about one
hundredth of the thickness of silicon.
However, although cadmium telluride is seen as the future for solar
energy, it is potentially dangerous after it is “activated” with
cadmium chloride, a critical step in the manufacturing process that
raises the efficiency of converting sunlight to electricity from about
two per cent to 15 per cent or more.
The Liverpool team attempted to find an alternative to cadmium
chloride in the activation step and discovered that it could be done
just as well with magnesium chloride, which they sprayed onto a
test sample of cadmium telluride with a model aircraft spray gun
they bought for £49.99, Dr Major said.
In a study published in the journal Nature, the researchers
demonstrated that the efficiency of the resulting photovoltaic cells
made from cadmium telluride and magnesium chloride were on a
par with commercial cadmium telluride cells that had been activated
with toxic cadmium chloride.
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“We have to apply cadmium chloride in a fume cupboard in the lab, but we created solar cells using the new method on a bench with a spray gun bought from a model shop,” Dr Major said.
“Cadmium chloride is toxic and expensive, and we no longer need to use it. Replacing it with a naturally occurring substance could save the industry a vast amount of money and reduce the overall cost for generating power from solar,” he said.
It is not possible to estimate how much cheaper the new solar cells will be, Dr Major said, but magnesium chloride is about one per cent of the cost of cadmium chloride. In addition, waste disposal will be far easier and cheaper with a product based on a non-toxic salt, he said.
Asked why the solar power industry had not thought of using magnesium chloride before, Dr Major said: “We genuinely don’t know. The only reason we can suggest is that cadmium chloride works well so it may be a case of ‘if it’s not broke, why is there a need to fix it?’”
Jeremy Leggett, chairman of the renewable energy firm Solarcentury, said that the development is exciting because it promises to make an already competitive industry even more competitive with conventional sources of energy, such as fossil fuels.
“Their costs are coming down so fast that they are already knocking the business models of utilities into what some analysts call a ‘death spiral’. Imagine, then, what will happen if developments such as the one described in the new research come to market,” Dr Leggett said.
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