…powerful features of NEXAFS spectroscopy make it highly productive in surface- and material-related studies, including for example: Molecular adsorption, desorption, diffusion and on-surface reactions Molecular self-organization on surfaces Heterogeneous catalysis…
…information under “Bio & Chem labs“. Need an Invitation letter? If you need an invitation letter for travel purposes the MAX IV Reception will assist you. Please make sure to…
…replicating its genomic material. By doing so the virus will “die out” over time as it fails to reproduce or make infectious particles. One way of getting this knowledge is…
…Learn more about the MAX IV IT environment. Follow this link to find Guides to the MAX IV IT services In case of emergency Please make sure you know the…
Follow the steps that will lead you to perform your experiments at MAX IV. Team up with synchrotron experts to make the most of your beamtime. Establish a line of…
…X-rays to find innovative, sustainable ways to map and exploit metallic materials’ properties. Two examples are the exploration of hydrogen as energy carrier in applications and the quest for composites…
MXenes are a novel class of two-dimensional materials offering properties that may be useful in many different applications such as composite materials with high strength, fuel- and solar cells, 2D-based…
…that modifying the typical ZnO-supported Cu nanoparticles by a small amount of gold (< 10 weight percent) makes the reaction more selective. Carbon dioxide can be converted to methanol, a…
…Army Research Office Young Investigator (YIP) Award, and the NSF CAREER Award. Chiu served as the Editor-in-Chief of the ASME Journal of Electrochemical Energy Conversion and Storage, Editor-in-Chief of Computational…
Want to become a MAX IV user? Apply for beamtime! MAX IV is happy to welcome researchers from all over the world to come to Lund and perform experiments using…