FRANCE: Soitec announced the industry's first four-junction solar cell device, which works under concentrated sunlight, putting the company on the solar-energy industry's technology roadmap at a world-class level of an outstanding 43.6 percent efficiency.
This technology development - made possible through strong collaboration between solar cell device and epitaxial growth centers of expertise combined with Soitec's decades-long leadership in substrate-bonding and layer-transfer technologies - validates the unique roadmap enabling, thanks to the four junctions structure to target the 50-percent efficiency level. This roadmap marks a major competitiveness breakthrough in the photovoltaic industry.
Soitec's four-junction solar cell has achieved today a peak efficiency of 43.6 percent, as confirmed by the Fraunhofer ISE Calibration Laboratory. This measurement was achieved at a concentration level of 319 (319 suns). The new cell has demonstrated more than 43 percent energy-generating efficiency over a concentration range between 250 and 500.
Today's triple-junction solar cells used in commercial concentrator photovoltaic (CPV) modules in real-world applications are approaching their physical limits in converting sunlight into renewable energy. Soitec's four- junction cell is designed to increase the conversion efficiency of commercial CPV systems to the highest level ever achieved by any photovoltaic technology. Based on the initial results obtained using very few integration runs, Soitec is well positioned at the front of the efficiency race.
The innovative four-junction cell uses two new, highly sophisticated dual-junction sub cells grown on different III-V compound materials, which allows optimal band-gap combinations tailored to capture a broader range of the solar spectrum. This maximizes energy-generating efficiency.
Soitec leverages its proprietary semiconductor-bonding (Smart Stacking) and layer-transfer (Smart Cut) technologies, which have been used in volume production by the global semiconductor industry for decades, to successfully stack non-lattice-matched materials while also raising the possibility of re-using expensive materials.
The new cell was developed in collaboration with the Fraunhofer Institute for Solar Energy Systems (ISE) in Freiburg, Germany, and the Helmholtz-Zentrum für Materialien und Energie in Berlin, which developed and deposited III-V epitaxial layers on new base materials as well as fabricating and characterizing the device. CEA-Leti, France's research institute for electronics and information technologies, also actively participated in the project and contributed its expertise in mechanically strong, electrically conductive and optically transparent bonding interfaces as well as layer-transfer engineering of III-V compound materials.