Synchrotron X-rays today remain largely underutilized in corrosion science, a field which examines the degradation of engineering materials. Known hurdles to industrial research on commercial alloys include a lack of…
…the graphite anodes used today,” says Martin Magnuson, associate professor at Linköping University. “The future of MXene-based batteries is particularly exciting.” From MAX-phase to MXene The raw materials for MXenes…
…on echoes for femtosecond applications.” Today, echoes are used at X-ray Free Electron Lasers (XFELs) to produce self-seeded monochromatic radiation. The NanoMAX study contributes to our knowledge of how dynamical…
Today, global food packaging and processing company Tetra Pak announces the commencement of new research using advanced X-ray scattering imaging techniques at ForMAX, the newest beamline at MAX IV laboratory….
…magnet by applying an opposite magnetic field. Today the technology is commonly used in low-power devices such as computer memories, pyroelectric sensors, and piezoelectric transducers. A known device limitation is…
…and reaction dynamics. Since its conception in the mid 1960’s, the coincidence technique has undergone considerable development and today a number of different spectrometers exist that enable the coincident measurement…
…industrial research and using these to tackle some of the most significant global challenges the world faces today. Read more on what opportunities PRISMAS offers to you and relevant information…
…metals they pose various environmental risks,” says Jenny Rissler, Lund University and RISE. “Today, a worst-case approach is taken. If we know the form of these metals, the ash may…
MAX IV Laboratory is a Swedish national laboratory providing scientists with the most brilliant X-rays for research with Lund University as the host university. The facility is funded primarily by…
“We eat too little fibre for optimal health today both in Sweden and the rest of the world. We’re trying to help that by making a product that can be…