Modernisation of BESSY II+ light source
Antje Vollmer is spokeswoman for BESSY II and project lead of the BESSY II+ project. She says: "BESSY II is rising to the scientific and societal challenges. The positive feedback from users encourages us in this!" © HZB/M. Setzpfandt
The 16th edition of the BESSY@HZB user meeting will take place on 11-12 December 2024 in Berlin-Adlershof. 400 participants exchange information about research at BESSY II. This year, Romania is the country of honour. © HZB/M. Setzpfandt
The focus of the User Meeting 2024: Helmholtz-Zentrum Berlin (HZB) presents the BESSY II+ upgrade programme. It enables world-class research at BESSY II to be further expanded and new concepts to be tested with regard to the successor source BESSY III.
Every year in December, HZB invites the users of BESSY II light source to Adlershof for an exchange of expertise. Research highlights of the year are presented and the wishes of the user community regarding future developments are discussed.
"BESSY II is now in its 27th year of operation," says Antje Vollmer, BESSY II spokesperson. "The expectations of our users have changed over the years. They want additional infrastructures, laboratories close to the beamlines and have high expectations of the sample environment. Research interests have also changed. For example, we are seeing a strong interest in battery research and energy conversion processes."
This is where the BESSY II+ project comes in. The aim is for BESSY to become an "operando synchrotron for the energy transition".
A bridge to the future: the BESSY II+ project
BESSY II+ offers new experimental possibilities, especially for operando investigations. These make it possible, for example, to watch batteries or solar cells "at work". In addition to the new "operando" possibilities, the BESSY II+ project also focuses on the two topics of "modernisation" and "sustainability". Sustainability involves, among other things, the utilisation of waste heat from the BESSY II experimental hall. Machine learning and artificial intelligence will also be even more integrated into many processes.
Funding of BESSY II+
As part of the modernisation project, the HZB has received additional funding from the Ministry of Education and Research (BMBF). "Invest BESSY II+" covers the most important investments for the project, which the BMBF is supporting to the tune of 17.45 million euros. This funding secures the development of new infrastructures, such as the SoTeXS instrument, which stands for soft-to-tender X-ray spectroscopy. This is a comprehensive concept for operando, metrological, multi-modal experiments that will be of great benefit to research into batteries and materials for energy applications.
Antje Vollmer emphasises: "BESSY II is facing up to the scientific and social challenges. The positive feedback from users encourages us to do so!"
- Porous Radical Organic framework improves lithium-sulphur batteriesA team led by Prof. Yan Lu, HZB, and Prof. Arne Thomas, Technical University of Berlin, has developed a material that enhances the capacity and stability of lithium-sulphur batteries. The material is based on polymers that form a framework with open pores (known as radical-cationic covalent organic frameworks or COFs). Catalytically accelerated reactions take place in these pores, firmly trapping polysulphides, which would shorten the battery life. Some of the experimental analyses were conducted at the BAMline at BESSY II.
- Metallic nanocatalysts: what really happens during catalysisUsing a combination of spectromicroscopy at BESSY II and microscopic analyses at DESY's NanoLab, a team has gained new insights into the chemical behaviour of nanocatalysts during catalysis. The nanoparticles consisted of a platinum core with a rhodium shell. This configuration allows a better understanding of structural changes in, for example, rhodium-platinum catalysts for emission control. The results show that under typical catalytic conditions, some of the rhodium in the shell can diffuse into the interior of the nanoparticles. However, most of it remains on the surface and oxidises. This process is strongly dependent on the surface orientation of the nanoparticle facets.
- Key technology for a future without fossil fuelsIn June and July 2025, catalyst researcher Nico Fischer spent some time at HZB. It was his sabbatical, he was relieved of his duties as Director of the Catalysis Institute in Cape Town for several months and was able to focus on research only. His institute is collaborating with HZB on two projects that aim to develop environmentally friendly alternatives using innovative catalyst technologies. The questions were asked by Antonia Rötger, HZB.