Electron diffraction methods have emerged as powerful tools for elucidating the atomic structures of a wide range of materials. Among these methods, cryo‐electron microscopy and microcrystal electron ...

What is Electron Backscatter Diffraction (EBSD)? Electron backscatter diffraction (EBSD), also known as backscatter Kikuchi diffraction (BKD), is a powerful characterization technique used to analyze ...

The UK’s first dedicated electron diffraction center is due to open in the Summer of 2023. The new facility will help UK nanoscientists to characterize the "tiniest of crystals", according to Derek ...

Last November, Quantum Design and NanoMEGAS invited industry and research professionals to learn more about the theoretical and practical applications of Precession Electron Diffraction (PED).

Michael Martynowycz, PhD, assistant professor of structural biology at the Jacobs School of Medicine and Biomedical Sciences, recently described a new technique for solving protein structures in a rec ...

In recent years, the field of spintronics has garnered much press and attention thanks to its untapped potential in applications like telecommunications, data storage and information processing. 1 ...

Scientists at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) have developed a new way to determine atomic structures from nanocrystals previously considered unusable, ...

A new centre based jointly at the University of Southampton and the University of Warwick will draw on expertise from two world class universities and become a game changer for chemical industries, ...

Although electron backscatter diffraction (EBSD) was first discovered by Kikuchi in 1928, its potential for microstructural characterization became fully realized only after the technique was ...

Harvard University researchers have developed a cathodoluminescence-based multicolour electron microscopy technique that enables simultaneous protein localisation and ultrastructural imaging in ...

Researchers characterized two moisture-swing polymers for direct air capture, finding that macropore structure governs CO2 sorption capacity and kinetics.