In improving oxidative stress and inflammation treatments, such as sclerosis and various kidney, respiratory, skin, and joint diseases, protein-protein interaction (PPI) between Nrf2 and Keap1 has become a key observation…
…become increasingly attractive in the last decade. With neutron diffraction, the changes in a commercial 18650-type NMC (LiNi1/3Mn1/3Co1/3O2)/graphite round cell can be easily followed. For a better understanding of the…
…facilities. The workshop is free of charge and will give an overview of the project and discuss the next steps for increased industrial use of large-scale research infrastructures. The program…
…characterize defects, determine open volumes and investigate open or closed microporous systems using positron annihilation spectroscopy. It is used for studying a variety of phenomena and material properties on an…
Semiconductor materials are used in electronic devices because of their unique electrical properties. III-V semiconductor materials consist of elements from the third and fifth columns of the periodic table. When…
…results in less greenhouse gas emissions. “Cows’ digestion create large amounts of methane, which is a very potent greenhouse gas. This technology allows us to mimic regular cheese very closely…
Collaboration is one of the core interests of MAX IV as it supports excellent user service provision by facilitating tools that guarantee staying on the forefront of synchrotron science. MAX…
…as a driver for the Short Pulse Facility. The 3 GeV storage ring with a circumference of 528 m is geared towards hard x-ray users, while the 1.5 GeV storage…
14% of MAX IV users are industry-connected Industry connected users access MAX IV through proprietary access (2%) or through the open access route with academic or institute partners (12%). In…
…metres, is used to test some of the technology that will be used in MAX IV. 2009 The financing for MAX IV is finalised. 2010 The MAX IV construction site…