A team led by Switzerland’s Ecole Polytechnique Fédérale Lausanne has developed a low-dimensional perovskite layer it says can be used as a capping layer on perovskite solar cell material, improving stability and water resistance. The team reports a 20% efficient cell incorporating the material.
Scientists from the Ecole Polytechnique Fédérale Lausanne (EPFL) – working with Milan’s Insititute of Molecular Science and Technology and the Qatar Environment and Energy Research Institute – have developed a perovskite material that can act as a top layer in a typical lead-based perovskite solar cell, improving cell stability and resistance to moisture.
The team’s study – Water-Repellent Low-Dimensional Fluorous Perovskite as Interfacial Coating for 20% Efficient Solar Cells, published in Nano Letters – describes a device with improved stability and a 20% conversion efficiency.
The top layer is described as a fluouros organic cation used as an organic spacer to form a low-dimensional perovskite with enhanced water-resistant character. The layer was tested with two perovskite combinations and in both cases self-assembled on top of the bulk absorber layer.
Cells incorporating the layer exhibited improved stability, particularly in the first hours of testing under environmental conditions. The researchers noted tandem cells utilizing a perovskite layer could benefit from the waterproof layer, and it could also have applications beyond PV.
Perovskite solar cells have seen plenty of breakthroughs to address their well-documented stability issues in recent years, and U.K. company Oxford PV states it has been able to create cells that meet IEC standards in damp heat, thermal cycling and light soaking tests.
Source PV Magazine