Groundbreaking for EMIL
Burial of the time capsule was part of the groundbreaking ceremony. Seen here are Klaus Lips, Anke Kaysser-Pyzalla, Birgit Schröder-Smeibidl, Markus Hammes, Bernd Rech, Axel Knop-Gericke (CAT project leader of the MPG's Fritz Haber Institute) and Thomas Frederking. Photo: Andreas Kubatzki/HZB
In addition to the August 5, 2013 daily paper and the EMIL blueprints, archaeologists of the future will also discover samples of thin film solar cells from the year 2013 inside the time capsule. Photo: Andreas Kubatzki/HZB
On Monday, August 5, 2013, a festive groundbreaking ceremony was the official signal for the start of construction of the new BESSY II research lab EMIL. The new cutting-edge solar energy and catalysis research preparation and analysis lab "Energy Materials In-Situ Laboratory Berlin" will be a direct BESSY II add-on. The joint project by the HZB and the Max Planck Society provides a one-of-a-kind infrastructure for the interdisciplinary and industry compatible development of new materials and technologies to facilitate the energy transition. This includes new material systems for solar modules as well as storage solutions for which new kinds of catalysts are warranted.
"Construction of EMIL is a sure-fire sign of the HZB's commitment to expanding our energy research focus. These kinds of unparalleled infrastructures are an important prerequisite for energy technology progress," said Prof. Anke-Rita Kaysser-Pyzalla, the HZB's scientific director. She took the occasion to thank all those involved at the HZB, the project executing organisation Jülich, the funding bodies as well as the various agencies for their formidable commitment to preparing and supporting the building project.
In his speech, the head of the project, Prof. Klaus Lips, made reference to the young hero in Erich Kästner's children's classic "Emil and the detectives," who personifies the new lab's mission. "Just as Emil went out looking for allies, here, too, it's all about putting together a strong team and figuring out solar cell losses using scientific detective work," Lips explained. "Beginning in 2015, we will be able to use EMIL for analysing the different processes that take place at the interfaces during production of thin film solar cells or catalysts under real-life conditions and even use depth-resolved observation."
Next, head architect Markus Hammes commented on the building's design: "We made a conscious effort to model the EMIL building on the storage ring's form language so EMIL will have the appearance of a pulled-out drawer as an integral part of the BESSY II building, albeit with its own separate function."
Lastly, Dr. Gerd Reichardt, EMIL's technology project manager, stuffed a time capsule made from solid stainless steel with a copy of Erich Kästner's novel, the daily paper, and the building blueprints, as well as with several samples of cutting-edge thin film photovoltaics, and then buried it in the ground underneath the construction site. The topping out ceremony has been scheduled for end-of-year 2013 to ensure the labs are up and running by late 2014.
- A new way to control the magnetic properties of rare earth elementsThe special properties of rare earth magnetic materials are due to the electrons in the 4f shell. Until now, the magnetic properties of 4f electrons were considered almost impossible to control. Now, a team from HZB, Freie Universität Berlin and other institutions has shown for the first time that laser pulses can influence 4f electrons- and thus change their magnetic properties. The discovery, which was made through experiments at EuXFEL and FLASH, opens up a new way to data storage with rare earth elements.
- BESSY II shows how solid-state batteries degradeSolid-state batteries have several advantages: they can store more energy and are safer than batteries with liquid electrolytes. However, they do not last as long and their capacity decreases with each charge cycle. But it doesn't have to stay that way: Researchers are already on the trail of the causes. In the journal ACS Energy Letters, a team from HZB and Justus-Liebig-Universität, Giessen, presents a new method for precisely monitoring electrochemical reactions during the operation of a solid-state battery using photoelectron spectroscopy at BESSY II. The results help to improve battery materials and design.
- HZB magazine lichtblick - the new issue is out!In his search for the perfect catalyst, HZB researcher Robert Seidel is now getting a tailwind – thanks to a ERC Consolidator Grant. In the cover story, we explain why the X-ray source BESSY II plays an important role for his research.