…Our in-house research revolves mostly around two-dimensional materials (graphene, borophene, etc.), and bottom-up fabrication, e.g. nanoribbons. The latest research highlights, both in-house and external, may be found at the highlights page,…
…In partnership with our diverse user community, and in seeking to strengthen MAX IV’s beamline portfolio, this workshop will focus on the scientific advancement of X-ray chemical microscopy investigations. At…
…accepted BAG proposal: Half year report Continued validity of accepted BAG proposals is subject to regular reporting by the BAG coordinator every six months. Please use the BAG “half year”…
Students from diverse scientific backgrounds will be recruited through partner universities to learn to use and develop synchrotron methods in their research while acquiring the skills to tackle some of…
For a user to be granted access to the MAX IV facility, they must first study the safety material and pass a safety test. The material to study is also…
…and the relevant time-scales involved. The ICE REMI (REaction MIcroscope) is available to general users. Single-bunch operation: There will be a 1 week of single-bunch operation during the Fall Term 2023. When…
…the diffraction plan has been imported into ISPyB, use the drop down menu at the top of the page to select “Add collection from diffraction plan” . This will display…
…lab External collaboration projects Completed – Collaboration with Division of Materials Microstructure, Chalmers University of Technology: Nano-mechanical testing device to MAX IV (to be first used at NanoMAX). In-situ mechanical testing of…
MAX IV Laboratory is a Swedish national synchrotron laboratory that has operated as a user facility since 2016. It is the successor to MAX-lab, which was in operation between 1987…
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…