Recruiting film is online!
© HZB
HZB has launched a new recruiting film to attract talented people from administration, IT and technology. In cooperation with an external film company, our HR department has produced a video with a lot of commitment and creativity that presents the unique opportunities and team spirit at our centre.
This film will soon be used in job advertisements, campaigns, on social media and at job fairs to get specialists excited about our centre.
We invite you to watch the film: Simply click on the following link to go directly to the video on youtube.
- The Enabler - portrait of Saskia VormfeldeSaskia Vormfelde takes on her new role as Administrative Director in September – and she is bringing more to the table than just a knack for accounting.
- 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.