New solar cell material could be used in space

Written by Copernical Team Thursday, 05 January 2023 09:23

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Warwick UK (SPX) Jan 03, 2023

Research led by the University of Warwick will investigate a new type of solar cell material, which could be used in space, in a bid to reduce reliance on fossil fuels. The European Research Council (ERC) has approved a five-year study which will delve into the atomic-level structure of a new type of solar cell material. This will address issues including stability and lifespan of metal ha

Research led by the University of Warwick will investigate a new type of solar cell material, which could be used in space, in a bid to reduce reliance on fossil fuels.

The European Research Council (ERC) has approved a five-year study which will delve into the atomic-level structure of a new type of solar cell material. This will address issues including stability and lifespan of metal halide perovskite compounds, which decrease in high humidity, strong sunlight and at elevated temperatures.

Interestingly, while the properties of perovskite solar cells change in a range of atmospheric conditions, they remain remarkably stable outside the Earth's atmosphere. This points to the potential for harvesting energy in space - a topical area of research, after the European Space Agency revealed it would be investigating whether satellites could beam electricity back to Earth earlier this year.

Using Nuclear Magnetic Resonance (NMR- an analytical chemistry technique that harnesses high magnetic fields and radiofrequencies targeted at atomic nuclei) scientists hope to answer an enduring question: what is causing this type of solar cell material to degrade at the atomic level?

The ERC Starting Grant of 2.2m pounds will involve the purchase of a 400 MHz solid-state NMR spectrometer worth 900,000 pounds, with unique capabilities that are currently not available in West Midlands. It will be installed specifically for this project, enabling researchers to investigate the atomic-level structure of solar cells. The eventual aim is to help improve the durability of these devices, so they can be relied on for decades to come.

What has already struck scientists is the viability of these new solar cells in applications where currently used silicon solar cells fall short: indoor light harvesting, use on highly flexible substrates, such as foils and fabrics, and in windows which require the material to be partially transparent.

The research will be led by Dr Dominik J. Kubicki, an Assistant Professor in the Department of Physics, University of Warwick. He said: "This study will help diversify sustainable energy sources and explore more options in the quest to reduce reliance on fossil fuels. We're keen to understand more about why these solar cells degrade in different atmospheric conditions at the atomic level, so we can design new, better materials and ensure maximum efficiency of this new sustainable energy source.

"Silicone is the current material used in solar cells and while those devices have a long durability of over 20 years, they have certain limitations. Solar cells need to be relatively thick; silicon is brittle, and it succumbs to cosmic radiation.

"Metal halide perovskites enable us to overcome these limitations, diversify the ways in which we can harvest solar energy, and apply them in contexts we had not previously anticipated. Investigating these materials will be very exciting, and we hope to find out how to make them more stable."

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Improving the operational stability of perovskite solar cells
Lausanne, Switzerland (SPX) Dec 29, 2022
Hybrid perovskites are materials made from metal halide frameworks interspersed with organic cations. They have attracted a lot of interest in the field of solar energy because of their light-harvesting capacity combined with a low cost of manufacturing, making perovskite solar cells (PSCs) prime candidates for replacing current silicon-based devices. Perovskites also show great potential in a range of applications that include LED lights, lasers, and photodetectors. One of the obstacles on the wa ... read more