Researchers from Aarhus University achieved breakthrough insights about the coupling process that allows active sugar transport in plants aided by MAX IV’s BioMAX beamline. They successfully detected the inward and…
Swedish funding agencies have significantly supported MAX IV development since its establishment through various paths and engaging different actors. This page shows an overview of externally funded projects, not providing…
Arevo produces plant biostimulants to ensure an environmentally friendly way of increasing plant growth, while keeping soils healthy and reducing nutrient losses to a minimum. This is done by addressing…
The main goal of the photoluminescence end station (PLES) is luminescence spectroscopy research under vacuum ultraviolet (VUV) as well as soft X-rays (XUV) excitations. Any materials in solid phase (single…
Visit MAX IV’s press room Go to MAX IV’s official Press Room on Cision (English newsroom) Besök MAX IV:s officiella pressrum på Cision (svenskt nyhetsrum) Photos and images MAX IV…
“The particles are synthesised in a new way that is fast and simple without chemicals that would be hazardous to the environment. They could potentially be made from biomass in…
The enabling forces behind the PRISMAS program are eight Swedish universities, industrial partners, and the large-scale research infrastructure MAX IV – all dedicated to the future of synchrotron research for…
X‐ray imaging approaching the low nanometer range is one of the most rapidly and strongly developing areas at all modern synchrotrons, e.g., ESRF, PETRA III, APS, Soleil or NSLS II….
The MAX IV linac serves two purposes: it’s a continuous top-up injector to both storage rings, but it also accelerates and compresses electron bunches for the short-pulse facility. The linac…
On 2 March 2022, the Swedish Government encouraged higher education institutions and research funders to ”immediately stop all contact and cooperation with state institutions in Russia and Belarus and to…