44,4 %: Neuer Wirkungsgrad-Rekord

Sharp stellt mit CPV Rekord auf

Sharp hat eine Solarzelle mit einem Wirkungsgrad von 44,4 Prozent entwickelt. Der japanische Solarkonzern entwickelte eine neue Triple-Junction-Konzentrator-Zelle. 44,4 % bedeuten einen neuen Weltrekord, wie das Fraunhofer Institut für Solare Energiesysteme (ISE) aus Freiburg dem Unternehmen bestätigte. Vor kurzem hatte Sharp mit einer Triple-Junction-Solarzelle einen Wirkungsgrad von 37,9 Prozent erzielt – ohne Konzentrator-Technologie. Die nun erzielte Wirkungsgradsteigerung ist auf die Kombination der beiden Technologien zurückzuführen.

Die Triple-Junction-Solarzelle von Sharp beruht auf drei miteinander verbundenen Absorberschichten, bei denen jede Schicht unterschiedliche Wellenlängen des Lichts aufnimmt. Die drei Schichten bestehen aus Indium-Gallium-Phosphid, Gallium-Arsenid und Indium-Gallium-Arsenid.

Die Originalmeldung:

Sharp Develops Concentrator Solar Cell with World’s Highest Conversion Efficiency of 44.4%Sets New Record with Concentrator Triple-Junction Compound Solar Cell

Sharp Corporation has achieved the world’s highest solar cell conversion efficiency*2 of 44.4%, using a concentrator triple-junction compound solar cell. These solar cells are used in a lens-based concentrator system that focuses sunlight on the cells to generate electricity.

This latest Sharp breakthrough came about through research and development efforts that are part of the “R&D on Innovative Solar Cells” project promoted by Japan’s New Energy and Industrial Technology Development Organization (NEDO).*3 Measurement of the value—which sets a record for the world’s highest concentrating conversion efficiency—was confirmed at the Fraunhofer Institute for Solar Energy Systems (ISE)*4 in Germany.

Compound solar cells typically offer high conversion efficiency while utilizing photo-absorption layers made from compounds of multiple elements, such as indium and gallium. Sharp’s concentrator triple-junction compound solar cells use a proprietary technology that enables the efficient conversion of sunlight into electricity by means of a stack of three photo-absorption layers, the bottommost of which is made from InGaAs (indium gallium arsenide).

To achieve a concentrating conversion efficiency of 44.4%, Sharp worked to widen the effective concentrator cell surface and ensure uniformity of width at the interface of the connecting concentrator cell and electrodes.

Because of their high conversion efficiency, compound solar cells have thus far been used primarily on space satellites. Looking to the future, Sharp aims to harness this latest development success and make the use of compound solar cells more feasible in terrestrial applications.


  • *1 Conversion efficiency confirmed by the Fraunhofer Institute for Solar Energy (ISE, one of several organizations around the world that officially certifies energy conversion efficiency measurements in solar cells) in April 2013 under a light-concentrating magnification of 302 times (cell surface: approx. 0.165 cm2).
  • *2 As of June 14, 2013, for concentrator solar cells at the research level (based on a survey by Sharp).
  • *3 NEDO is one of Japan’s largest public management organizations for promoting research and development as well as for disseminating industrial, energy, and environmental technologies.
  • *4 ISE was one of the participating members from the EU side at “NGCPV: A new generation of concentrator photovoltaic cells, modules and systems.” The collaboration is part of the R&D in Innovative Solar Cells project.
  • *5 InGaP: Indium Gallium Phosphide
    GaAs: Gallium Arsenide
    InGaAs: Indium Gallium Arsenide
    Tunnel junction: Semiconductor junction where electricity flows as if through metal
    Buffer layer: A layer sandwiched between two materials to accommodate differences in their structures.

->Quelle: sharp-world.com