Automated data collection
…move to the next sample. A relatively common error happens when the X-ray centering fails to locate diffraction from the crystal. Often this means that the crystal does not diffract…
…move to the next sample. A relatively common error happens when the X-ray centering fails to locate diffraction from the crystal. Often this means that the crystal does not diffract…
…full datasets due to e.g. radiation damage and sample heterogeneity. These methods are commonly referred to as “serial crystallography”. MicroMAX will thus widen the scope of MX to difficult targets…
SFTP (SSH File Transfer Protocol) is a commonly used protocol for transferring data. There are clients available for almost any platform that one can think of. It is available as…
…read our Industry Strategy 2021-2030 or find more information about our strategies here. Paper and Pulp Health and Life sciences Drug discovery Food Metals and Engineering Energy and Battery Other…
…which will deliver 35 keV radiation from the 13th harmonic. You can download the IVU and accelerator parameters in SPECTRA format here. The undulator has been delivered to MAX IV by Hitachi Metals Ltd….
…uses metal plate sample holders in 6 and 8 hole variants. The sample holders support TEM grids and silicon nitride membranes with an outer dimension from 3 x 3 mm2 to…
…which are both made up of carbon atoms. The microscopic structure concerns e.g. the grain and pore structure of the material. The microscopic structure governs e.g. the hardness of metals…
…work on size and structure relations in general by investigating other metal oxide systems. They also work on understanding how such materials form and why specific synthesis pathways lead to…
…of being a non-destructive materials research method, positron annihilation has been developed as a well-established tool for investigations of metals, semiconductors, polymers and porous materials. https://remade-project.eu/: ReMade@ARI: Non-Destructive Material Analysis…
…clusters, solids and their interfaces. FinEstBeAMS is dedicated for vapor phase research. At FinEstBeAMS it is possible to investigate: Free atoms, molecules and clusters Atmospheric molecules and clusters Metal clusters…