MicroMAX is opening up new possibilities in the area of structural biology making it possible to study proteins in 3D and to follow them in time. MicroMAX will allow studying the molecules that are most interesting but most difficult to study because they only provide microcrystals. MicroMAX provides a very small but parallel and intense
ForMAX allows time-resolved multiscale and multimodal structural characterization from nm to mm length scales in a single instrument. Main techniques: ForMAX is funded by the Knut and Alice Wallenberg Foundation and Swedish industry via Treesearch – a national platform for research on new materials and speciality chemicals from forest raw material. The beamline is accessible
The ultrafast beamline at MAX IV helps scientists study how materials are structured and how they change over extremely short periods of time. These studies are important for developing new ways to use light to control materials, which could lead to new approaches to manufacturing in various industries, clean energy solutions inspired by how plants
DanMAX is a materials science beamline dedicated to in situ and operando experiments on real materials. The beamline operates in the hard X-ray range (15–35 keV) and has three endstation instruments: one for full-field imaging, one versatile powder diffraction setup using an area detector, and a high-resolution powder X-ray diffraction instrument using a microstrip detector.