…the X-ray crystallography beamline BioMAX to test the structure-function of three relevant candidate compounds inhibiting the UrdA enzyme. The data obtained at MAX IV enabled the researchers to create high-resolution 3D…
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…
…6-thioguanine potentiation compared to the existent inhibitor, TH1760. It also showed no toxicity of its own. TH7755 stabilized the NUDT15 mutants to a great extent, enabling the analysis by X-ray…
…when the measurements are completed. Proprietary access chevron_right The complete beamline setup is available for Proprietary users, please contact the MAX IV Industrial Relations Office for further information. Standard access…
…budget for beamline construction or operations. It is one of the main driving forces of MAX IV to serve the Swedish research community and provide tools and methods that guarantee…
…upper left: Nils Skoglund (Umeå University), Konstantin Klementiev (MAX IV), Sana Elbashir (Umeå University), and Regina Gratz (Arevo). On this topic, Arevo will conduct a series of experiments at MAX…
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…
…and Muon Source in the UK and Santiago Fernandez Bordin, based at MAX IV. “We were not very familiar with the small-angle and wide-angle X-ray scattering type of measurements that…
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…