Tandem solar cell world record: A certified efficiency of 24.16 percent

A special branch in the famous NREL-chart for solar cell world records refers to a newly developed tandem solar cell by HZB teams. The world-record cell combines the semiconductors perovskite and CIGS to a monolithic “two-terminal” tandem cell. Due to the thin-film technologies used, such tandem cells survive much longer in space and can even be produced on flexible films. The new tandem cell achieves a certified efficiency of 24.16 percent.

Tandem cells combine two different semiconductors that convert different parts of the light spectrum into electrical energy. Metal-halide perovskite compounds mainly use the visible parts of the spectrum, while CIGS semiconductors convert rather the infrared light. CIGS cells, which consist of copper, indium, gallium and selenium, can be deposited as thin-films with a total thickness of only 3 to 4 micrometers; the perovskite layers are even much thinner at 0.5 micrometers. The new tandem solar cell made of CIGS and perovskite thus has a thickness of well below 5 micrometers, which would allow the production of flexible solar modules.

The CIGS-Pero tandem cell was realised in a typical lab size of 1 square centimeter.

The CIGS-Pero tandem cell was realised in a typical lab size of 1 square centimeter. © HZB

Suitable for applications in space

“This combination is also extremely light weight and stable against irradiation, and could be suitable for applications in satellite technology in space”, says Prof. Dr. Steve Albrecht, HZB. These results, obtained in a big collaboration, have been just published in the renowned journal JOULE.

Extremely thin and efficient

“This time, we have connected the bottom cell (CIGS) directly with the top cell (perovskite), so that the tandem cell has only two electrical contacts, so-called terminals”, explains Dr. Christian Kaufmann from PVcomB at HZB, who developed the CIGS bottom cell with his team and he adds “Especially the introduction of rubidium has significantly improved the CIGS absorber material”.

The Pero CIGS tandem cells are now shown in the NREL chart (red square dots). The world record is currently held by the HZB with 24.16 %.

The Pero CIGS tandem cells are now shown in the NREL chart (red square dots). The world record is currently held by the HZB with 24.16 %. © NREL

 

Improving the contact

Albrecht and his team have deposited in the HySPRINT lab at HZB the perovskite layer directly on the rough CIGS layer. “We used a trick that we had previously developed,” explains former postdoc from Albrecht’s group Dr. Marko Jošt, who is now a scientist at the University of Ljubjana, Slovenia. They applied so-called SAM molecules to the CIGS layer, which form a self-organised monomolecular layer, improving the contact between perovskite and CIGS.

Certified efficiency: 24.16 percent

The new perovskite CIGS tandem cell achieves an efficiency of 24.16 percent. This value has been officially certified by the CalLab of the Fraunhofer Institute for Solar Energy Systems (ISE).

NREL-Chart

Since such “2 Terminal” tandem cells made of CIGS and perovskite now represent a separate category, the National Renewable Energy Lab NREL, USA, has created a new branch on the famous NREL chart for this purpose. This chart shows the development of efficiencies for almost all solar cell types since 1976. Perovskite compounds have only been included since 2013 – the efficiency of this material class has increased more steeply than any other material.

Prof. Dr. Steve Albrecht heads a BMBF-funded junior research group at HZB and is a junior professor at the Technical University of Berlin. Dr. Christian Kaufmann heads a research group at HZB’s PVcomB.  Recently, several world records for tandem solar cells made of perovskite in combination with inorganic semiconductors have been reported from HZB.Currently, Albrecht’s team also holds the world record for tandem cells made of silicon and perovskite with 29.1 percent, which is also listed in the NREL charts.

Story Source:

Materials provided by Helmholtz-Zentrum Berlin für Materialien und Energie.

Note: Content may be edited for style and length.

Journal Reference:

  1. Felix Lang, Marko Jošt, Kyle Frohna, Eike Köhnen, Amran Al-Ashouri, Alan R. Bowman, Tobias Bertram, Anna Belen Morales-Vilches, Dibyashree Koushik, Elizabeth M. Tennyson, Krzysztof Galkowski, Giovanni Landi, Mariadriana Creatore, Bernd Stannowski, Christian A. Kaufmann, Jürgen Bundesmann, Jörg Rappich, Bernd Rech, Andrea Denker, Steve Albrecht, Heinz-Christoph Neitzert, Norbert H. Nickel, Samuel D. Stranks. Proton Radiation Hardness of Perovskite Tandem PhotovoltaicsJoule, 2020; DOI: 10.1016/j.joule.2020.03.006

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