It has been long debated whether the ideal glass exists. Now, a group of physicists from Spain has succeeded in producing the ideal glass and relating it to observations with inelastic neutron scattering at MLZ.
When metallic objects change their shape seemingly without any external influence and only according to the will of their owners, this at first sounds like something only comic superheroes like Magneto and Ironman could do. However, the idea from those comics has a real-world manifestation in existing materials called magnetic shape memory alloys (MSMAs). Moreover, they have potential applications e.g. in robotics or medical devices.
A team of German and Dutch scientists synthesised a series of substances, which show bright luminescence under UV light. Therefore the amount of hydrogen in the structure determines the wavelength – and hence the color – of the emitted light. These compounds could be used as illuminants in LEDs or for chemical hydrogen storage.
Significant amounts of antibiotic residues and pathogens enter the environment via our wastewater. A German Italian team of researchers has now investigated a novel nanomaterial that has an antibacterial effect and can bind antibiotics at the Heinz Maier-Leibnitz Zentrum. Wastewater could thus be treated more effectively and safely.
Depressive disorders are among the most frequent illnesses worldwide. The causes are complex and to date only partially understood. The trace element lithium appears to play a role. Using neutrons of the research neutron source at the Technical University of Munich (TUM), a research team has now proved that the distribution of lithium in the brains of depressive people is different from the distribution found in healthy humans.
In December 2020, the Pfizer-BioNTech COVID-19 vaccine was approved for use across the EU, marking a crucial step forward in the fight against coronavirus. The development of this COVID-19 vaccine built on important research that was undertaken by Mainz-based biotechnology company, BioNTech, in collaboration with the Jülich Center for Neutron Science (JCNS). Using neutron scattering instruments operated by the JCNS at the Heinz Maier-Leibnitz Center in Garching, researchers investigated new approaches for the packaging and delivery of the mRNA. Such experiments provide important insights into the relationship between structural properties, biological activity and the vaccine production process, which will help to advance the development of RNA therapeutics and vaccines.