…understanding how catalyst structure and composition impact its activity. Ambient-pressure x-ray photoelectron spectroscopy (APXPS) is a powerful in-situ technique that accounts for all of these intertwined factors. Until recently however,…
…major advantages of using antiferromagnets as active elements are essentially preserved.” MAX IV’s MAXPEEM beamline and Diamond Light Source provided the x-ray microscopy necessary to carry out the experiment. “In…
…directly visualize electrodes, complete cells or the electrolyte filling process in order to be able to observe spatial inhomogeneities (<100 mm) in battery cells [2]. Furthermore, near-surface Li distributions are…
…stages. The first part measured and verified the beamline optics with tele ptychography, where the beam size and shape were compared against theoretical data. In the next stage, scientists analysed…
…is planned Operational mode Continuous beam Differential pumping Modular differential pumping setup with double skimmer (Cu skimmers, 50 µm – 1 cm in diameter) arrangement and 3 x 67 l/s…
…process for the 1st call is closed and completed. 2nd Call: The recruitment process for the 2nd call is closed and completed. Curious about the offered positions? See here the…
…File system access at LUNARC – Lund University computing center, as /projects/maxiv Open access to published data are made available via SciCat Internal access while on site Transferring data to a…
How can tomorrow’s solar cells become even more energy efficient? This is what pioneering company Epishine is currently investigating at the MAX IV beamline HIPPIE. Swedish cleantech company Epishine’s patented manufacturing process…
…Germany, while the APXPS measurement will be done at the HIPPIE beamline at MAX IV in Lund. “Depending on what we discover, the data might give us new ideas and…
…for years, but the company is interested in further development of the product it offers. In collaboration with Swedish Research Institute for Mining, Metallurgy and Materials – Swerim, SSAB explored…