Fraunhofer ISE have improved the performance of a cell structure originally developed by France’s Soitec in 2014. The German scientists managed to reduce resistance losses and the reflection on the cell front side.
Researchers at the Fraunhofer Institute for Solar Energy Systems (Fraunhofer ISE) in Germany have achieved a power conversion efficiency of 46.7% for a III-V concentrating photovoltaic cell (CPV) with a four-junction architecture.
“The upper tandem solar cell is made of gallium indium phosphide (GaInP) and aluminum gallium arsenide (AlGaAs), which was bonded by Soitec onto a lower tandem solar cell made of gallium indium arsenide phosphide (GaInAsP) and gallium indium arsenide (GaInAs),” Fraunhofer ISE said. “Now an improved contact layer and a 4-layer antireflection coating were applied to the tandem cell structure in Fraunhofer ISE’s Center for High Efficiency Solar Cells.”
The cell’s previous efficiency level was 46.1%. The scientists improved it by reducing resistance losses and the reflection on the cell front side. It also implemented improvements for the metal contacts.
“Possible applications of such highly efficient tandem solar cells include concentrator photovoltaic systems, which contribute to efficient power generation in sun-rich countries,” said Stefan Glunz, division director of Photovoltaics Research at Fraunhofer ISE. “With tandem photovoltaics, it is possible to leave the limitations of single-junction solar cells behind and ultimately achieve a reduction in solar power costs.”
Fraunhofer ISE has worked on several kinds of III-V solar cells in the past. They include a 68.9%-efficient III-V solar cell for laser energy transmission systems, a 35.9%-efficient III-V triple-junction solar cell based on silicon, and a III-V tandem solar cell with an efficiency of 25.9%, among others.
This post appeared first on PV Magazine.