Inorganic perovskite absorber boosts thin-film solar cell production

April 30, 2019 //By Christoph Hammerschmidt
Using inorganic persovskite materials in thin film solar cells
Researchers at Helmholtz-Zentrum in Berlin has developed a way to make it easier to use inorganic perovskite materials in thin-film solar cells.

Teams around the world are developing perovskite solar cells that can use light in the green and blue parts of the spectrum, boosting the efficiency. Research usually focuses on organometallic hybrid perovskites whose crystal structure consists of inorganic elements such as lead and iodine as well as an organic molecule.

Fully inorganic perovskite semiconductors such as CsPbI3 have the same crystalline architecture as hybrid perovskites, but contain an alkali metal such as cesium instead of an organic molecule. This makes them much more stable than hybrid perovskites, but usually requires a production step at a very high temperature of several hundred degrees Celsius. For this reason, inorganic perovskite semiconductors are difficult to integrate into thin-film solar cells that do not tolerate high temperatures.

A team led by Dr. Thomas Unold from the Helmholtz Research Center Berlin has now succeeded in producing inorganic perovskite semiconductors at moderate temperatures so that they could also be used in various thin-film cells in the future.

Next: Inorganic perovskite production 


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