The high frequencies found in pop and rock music cause vibrations that enhance the performance of solar cells containing nanorods

Rock and pop music improves solar cell performance

Playing pop and rock music improves the performance of solar cells by up to 40 per cent, according to new research.

Scientists at Queen Mary University of London and Imperial College London have found the high frequencies and pitch found in pop and rock music causes vibrations that enhanced energy generation in solar cells containing a cluster of ‘nanorods’.

The study recorded a 40 per cent increase in efficiency of the solar cells, a finding which has implications for improving energy generation from sunlight, particularly in relation to the development of new, lower cost, printed solar cells.

“After investigating systems for converting vibrations into electricity this is a really exciting development that shows a similar set of physical properties can also enhance the performance of a photovoltaic,” said Dr Steve Dunn, reader in Nanoscale Materials from Queen Mary’s School of Engineering and Materials Science.

To carry out the study, published in the journal Advanced Materials today, the researchers grew billions of tiny rods, known as nanorods, made from zinc oxide, then covered them with an active polymer to form a device that converts sunlight into electricity.

Scientists had previously shown that applying pressure or strain to zinc oxide materials could result in voltage outputs, known as the piezoelectric effect, but the effect of these piezoelectric voltages on solar cell efficiency had not received significant attention before.

Taking advantage of this special property of the zinc oxide material, the team was able to show that sound levels as low as 75 decibels – equivalent to a typical roadside noise or a printer in an office – could significantly improve the solar cell performance.

"We thought the soundwaves, which produce random fluctuations, would cancel each other out and so didn't expect to see any significant overall effect on the power output," said James Durrant, Professor of Photochemistry at Imperial College London, who co-led the study.

"The key for us was that not only that the random fluctuations from the sound didn’t cancel each other out, but also that some frequencies of sound seemed really to amplify the solar cell output so that the increase in power was a remarkably big effect considering how little sound energy we put in.

"We tried playing music instead of dull flat sounds, as this helped us explore the effect of different pitches. The biggest difference we found was when we played pop music rather than classical, which we now realise is because our acoustic solar cells respond best to the higher pitched sounds present in pop music."

The discovery could be used to power devices that are exposed to acoustic vibrations, such as air conditioning units or within cars and other vehicles.  

Dunn added: “The work highlights the benefits of collaboration to develop new and interesting systems and scientific understanding.”

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