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Home NEWS Science News Chemistry

Removing the lead hazard from perovskite solar cells

Bioengineer by Bioengineer
July 15, 2021
in Chemistry
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Credit: Endre Horváth (EPFL)

“The solar energy-to-electricity conversion of perovskite solar cells is unbelievably high, around 25%, which is now approaching the performance of the best silicon solar cells,” says Professor László Forró at EPFL’s School of Basic Sciences. “But their central element is lead, which is a poison; if the solar panel fails, it can wash out into the soil, get into the food chain, and cause serious diseases.”

The problem is that in most of the halide perovskites lead can dissolve in water. This water solubility and solubility in other solvents is actually a great advantage, as it makes building perovskite solar panels simpler and inexpensive – another perk along with their performance. But the water solubility of lead can become a real environmental and health hazard when the panel breaks or gets wet, e.g. when it rains.

So the lead must be captured before it gets to the soil, and it must be possible to recycle it. This issue has drawn much and intensive research because it is the main obstacle for regulatory authorities approving the production of perovskite solar cells on a large, commercial scale. However, attempts to synthesize non-water-soluble and lead-free perovskites have yielded poor performance.

Now, Forró’s group has come up with an elegant and efficient solution, which involves using a transparent phosphate salt, which does not block solar light, so it doesn’t affect performance. And if the solar panel fails, the phosphate salt immediately reacts with lead to produce a water-insoluble compound that cannot leach out to the soil, and which can be recycled. The work is published in ACS Applied Materials & Interfaces.

“A few years ago, we discovered that cheap and transparent phosphate salt crystals, like those in soil fertilizers, can be incorporated into various parts of the sandwich-like lead halide perovskite devices, like photodetectors, LEDs or solar cells,” says Endre Horváth, the study’s first author. “These salts instantaneously react with lead ions in the presence of water, and precipitate them into extremely non-water-soluble lead phosphates.”

“The ‘fail-safe’ chemistry keeps lead ions from leaching out and can render perovskite devices safer to use in the environment or close to humans,” says Márton Kollár, the chemist behind the growth of perovskite crystals.

“We show that this approach can be used to build functional photodetectors, and we suggest that the broad community of researchers and R&D centers working on various devices like solar cells and light-emitting diodes implements it in their respective prototypes,” adds Pavao Andričevic, who characterized the sensitive photodetectors.

Forró concludes: “This is an extremely important study – I would say, a central one – for large-scale commercialization of perovskite-based solar cells.”

###

Endre Horváth, Márton Kollár, Pavao Andričevic, Lidia Rossi, Xavier Mettan, László Forró. Fighting Health Hazards in Lead Halide Perovskite Optoelectronic Devices with Transparent Phosphate Salts. ACS Applied Materials & Interfaces 15 July 2021. DOI: 10.1021/acsami.0c21137

Media Contact
Nik Papageorgiou
[email protected]

Related Journal Article

http://dx.doi.org/10.1021/acsami.0c21137

Tags: Biomedical/Environmental/Chemical EngineeringChemistry/Physics/Materials SciencesEcology/EnvironmentElectromagneticsEnergy/Fuel (non-petroleum)Materials
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