Thursday, 28 November 2013

Noisy Solar Cells



They are really picking up Good Vibrations. Some solar cells convert sunlight into electricity more efficiently when loud music is played to them as long as it is pop rather than classical.

Traditional silicon-based solar cells convert sunlight into electricity efficiently, but they can be awkward to work with and expensive to produce. So Steve Dunn at Queen Mary University in London and James Durrant at Imperial College London have been experimenting with zinc oxide, which is much cheaper and can be made into thin, flexible films. The only drawback is that its efficiency is just 1.2 per cent, a small fraction of what silicon is capable of. To improve this, Dunn and Durrant took advantage of another of zinc oxide's properties. Nanoscale rods of the material wobble in response to mechanical stress – such as the vibrations produced by sound – and generate an electric field.

"We tried our initial tests with various types of music, including pop, rock and classical" says Dunn. Rock and pop were the most effective, perhaps because they have a wider range of frequencies. Using a signal generator to produce precisely measured sounds similar to ambient noise they saw a 50 per cent increase in efficiency, rising from 1.2 per cent without sound to 1.8 per cent with sound.  The discovery could lead to the development of zinc-oxide solar arrays that can be deployed in noisy public places – next to busy roads, for example.

"There are lots of places where this might be useful. On top of air-conditioning units, on military vehicles or on military personnel where lightweight power sources can be used to supplement heavy power requirements. The majority of solar cells on the market won't benefit from the phenomenon. But it will be possible to design and develop new cells to take advantage of what we've seen." says Dunn. 

Paul Weaver at the National Physical Laboratory in Teddington says "Anything that can improve the conversion efficiency of this type of solar cell is clearly useful. It's interesting that exploiting combinations of properties in these complex, multifunctional materials can produce unexpected benefits."

This article appeared in print under the headline "Sparks fly when solar cells dig that funky beat" In the New Scientist magazine.

The link to the pdf document referenced in the original posting has been removed. (see Halfies comment) The link I provided was only available to subscribers. Even though I retired from Higher Eduction three years ago. My old employer has continued to maintain my subscriptions.

1 comment:

  1. Interesting! It sounds (sorry!) as though the panels would work at night too, as long as there was enough vibration. I tried to look at the pdf you link to, but it's restricted access only.

    ReplyDelete

Please put your name to your comment. Comments without a name may automatically be treated as spam and might not be included.

If you do not wish your comment to be published say so in your comment. If you have a tip or sensitive information you’d prefer to share anonymously, you may do so. I will delete the comment after reading.