HySPRINT Photovoltaics Lab inaugurated

© HZB

After around four years of renovation, photovoltaics research groups moved into their offices in Kekuléstraße on 20 June 2024. With the reopening, the building has also been given a new name that makes the research more visible: it is now called HySPRINT Photovoltaics Lab.

The conversion had become necessary because the ventilation capacity was no longer sufficient for the laboratory activities. The newly installed ventilation system is so large that it is now located on the roof instead of in the building. The supporting structure is a technical platform that stands on 14 supports with a separate foundation virtually inside the building.

To build the stage, the rooms from the basement to the upper floor had to be emptied. The expandable ventilation system now enables the operation of the HySPRINT laboratories and the KOALA laboratory as well as the expansion of other modern laboratories in the building. The technical platform also provides the technical requirements for installing a photovoltaic system on the roof.

Eva Unger, Steve Albrecht and Antonio Abate hosted a barbecue at the opening and thanked all those who helped with the conversion of the building. In their short speeches, they also looked back on the history of the building. They honoured the research that took place in the former Institute for Silicon Photovoltaics and contributed significantly to the reputation of the HZB. A new era has long since begun with perovskite research and world records. In September 2023, the HZB teams won the first Helmholtz High Impact Award for their outstanding research on novel perovskite materials.

ih

  • Copy link

You might also be interested in

  • Lithium-sulphur pouch cells investigated at BESSY II
    Science Highlight
    08.01.2025
    Lithium-sulphur pouch cells investigated at BESSY II
    A team from HZB and the Fraunhofer Institute for Material and Beam Technology (IWS) in Dresden has gained new insights into lithium-sulphur pouch cells at the BAMline of BESSY II. Supplemented by analyses in the HZB imaging laboratory and further measurements, a new picture emerges of processes that limit the performance and lifespan of this industrially relevant battery type. The study has been published in the prestigious journal Advanced Energy Materials.
  • Two Humboldt-Fellows join HZB
    News
    09.12.2024
    Two Humboldt-Fellows join HZB
    In 2024, two young scientists joined HZB as Humboldt Fellows. Kazuki Morita joined Prof. Antonio Abate's group and brings his expertise in modelling and data analysis to solar energy research. Qingping Wu is an expert in battery research and works with Prof. Yan Lu on high energy density lithium metal batteries.
  • Less is more: Why an economical Iridium catalyst works so well
    Science Highlight
    05.12.2024
    Less is more: Why an economical Iridium catalyst works so well
    Iridium-based catalysts are needed to produce hydrogen using water electrolysis. Now, a team at HZB has shown that the newly developed P2X catalyst, which requires only a quarter of the Iridium, is as efficient and stable over time as the best commercial catalyst. Measurements at the EMIL lab at BESSY II have now revealed how the special chemical environment in the P2X catalyst during electrolysis promotes the oxygen evolution reaction during water splitting.