Thanks to a carbon dioxide doping technique, the solar cell interlayers exhibited conductivity around five times higher than that of a perovskite cell based on interlayers doped with oxygen.

In addition, they could passivate the surface of the absorber in their solar cell and increase the doping density. In initial tests, their record CIGS solar cell achieved a high external radiative ...

Researchers from Linköping University in Sweden believe they may have found a solution that could let solar manufacturers ...

“The technique of doping with host lattices is commonly ... “Ca3NI3 perovskite material is preferred for solar cells because of its possible stability, variable bandgap, and effective light ...

Extraterrestrial Power's new innovation allows space-grade solar cells to be mass produced alongside terrestrial solar cells.

In a study published in Nature, researchers at Linköping University have developed a method to recycle all parts of a solar ...

Solar cells are devices for converting sunlight into ... electrode shading through innovative center electrodes and high-doping interconnections. The results support the development of stable ...

often require advanced doping or structural modifications to lower resistance without diminishing transparency. This optimization is crucial to improving the overall performance of solar cells.

The performance of kesterite solar cells is limited by poor extraction ... shading through innovative center electrodes and high-doping interconnections. The results support the development ...