New technique announced to turn windows into power generators

Aug 10, 2010
Images depicting the inside of the deposition chamber were taken when scientists were depositing the insulating film. The different colors are due to the different gases being used. Credit: Prof. Chris Binns, University of Leicester

An international team of scientists and industrialists is to meet at the University of Leicester to develop of a revolutionary new technique for harnessing green energy.

Norwegian company EnSol AS has patented a ground breaking, novel thin film solar which they seek to develop commercially by 2016.

The company is now working with experts in the University of Leicester Department of Physics and Astronomy to develop the revolutionary new type of solar cell material that could be coated as a thin film on, for example, windows in buildings to produce power on a large scale.

Images depicting the inside of the deposition chamber were taken when scientists were depositing the insulating film. The different colors are due to the different gases being used. Credit: Prof. Chris Binns, University of Leicester

Experts will meet at the University from August 10- 11 to officially launch the collaboration between EnSol AS and the University of Leicester.

Professor of Nanotechnology at the University of Leicester, Professor Chris Binns, said the collaboration offered a tremendous opportunity to develop a new method for harnessing solar energy:

"The material has been designed by EnSol AS and is based on that can be synthesised in Leicester. In fact, following some initial investment by the company, the equipment we have here at the University of Leicester is uniquely suited in the world to produce small amounts of the material for prototypes

"The work is important since the solar cells are based on a new operating principle and different to Si . One of the key advantages is that it is a transparent thin film that can be coated onto window glass so that windows in buildings can also become power generators. Obviously some light has to be absorbed in order to generate power but the windows would just have a slight tinting (though a transmission of only 8-10% is common place for windows in the "sun belt" areas of the world) . Conversely the structural material of the building can also be coated with a higher degree of absorption. This could be side panels of the building itself, or even in the form of "clip-together" solar roof tiles.

Images depicting the inside of the deposition chamber were taken when scientists were depositing the insulating film. The different colors are due to the different gases being used. Credit: Prof. Chris Binns, University of Leicester

"Also since it is a thin film that can be coated onto large areas it could become very much cheaper than conventional devices.

"Photovoltaics are destined to form a key power generating method as part of a low carbon economy and the new technology will bring that a stage closer."

The material is composed of metal nanoparticles (diameters ~ 10 nm) embedded in a transparent composite matrix..

A spokesperson for EnSol AS said: "The basic cell concept has been demonstrated, and it will be the objective of this research and development project to systematically refine this PV cell technology to achieve a cell efficiency of 20% or greater.

"A thin film deposition system with nanoparticle source, will be designed and constructed in collaboration with the University of Leicester for the fabrication of prototype cells based on this design.

"This experimental facility will be designed to produce PV cells with an active area in excess of 16 cm2 (40 mm x 40 mm) deposited onto standard glass substrates. These prototype cells will subsequently be characterised and tested in collaboration with our academic partners.

"EnSol's next generation PV cell technology has tremendous potential for industrial scale, low environmental impact, cost effective production via standard "spray on" techniques."

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Hunnter
5 / 5 (1) Aug 10, 2010
I remember seeing a video about someone talking about this research, or a similar method at least.

The method itself is a really good one since it minimizes the need for expensive solar cells and large sections of wasted space.
It also makes good use of current windows.

I hope it comes at that time, or even sooner, and hopefully cheap-ish in the realms of solar in general.
Hopefully if it is cheap enough, it can drive solar adoption up significantly.
I doubt it will though... new tech = expensive most of the time.