Complex transition-metal oxides are often sensitive to strain and may display very different properties if their lattice is compressed or extended. This is especially true of ferroelectric materials, such as…
The paper and pulp industry is undergoing radical changes where pulping, papermaking, and biorefinery processes are being re-invented. At MAX IV, the paper and pulp industry R&D has a clear focus…
Rather than keep the medal, Mikael decided to donate it to everyone at MAX IV to honour their contributions.“ It would not be fair to keep the medal as it is…
At the end of 2023, MAX IV will provide WISE with conceptual design reports for three material sciences beamlines. One of the proposed beamlines will focus on diffraction, specifically providing…
With the rise of time-resolved macromolecular crystallography, and to reap the full potential of 4th generation synchrotron source like MAX IV, the team aimed to work out a setup that…
MAX IV Laboratory recruits from all over the world. Our vacancies are advertised on the websites of MAX IV Laboratory and Lund University’s web as well as through various media outlets…
At the end of 2023, MAX IV will provide WISE with conceptual design reports for three material sciences beamlines. One of the proposed beamlines will focus on imaging, specifically providing…
ForMAX is specially designed for advanced studies on wood-based materials. It allows in-situ multiscale structural characterization from nm to mm length scales by combining full-field tomographic imaging, small- and wide-angle…
Join Lund Visualization Week arranged by InfraVis and explore data visualization opportunities in a variety of research areas, from natural sciences to humanities. Visualization of single-cell gene expression, identification of…
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…