An emerging theme of modern composites and devices is the coupling of nanostructural
properties of materials with their targeted arrangement at the microscale. Of the imaging …

The advent of nanosciences calls for the development of local structural probes, in particular
to characterize ill-ordered or heterogeneous materials. Furthermore, because materials …

Modern functional nanomaterials and devices are increasingly composed of multiple phases
arranged in three dimensions over several length scales. Therefore there is a pressing …

The development of new functional materials builds on an understanding of the intricate
relationship between material structure and properties, and structural characterization is a …

During recent decades innovative nanomaterials have been extensively studied, aiming at
both investigating the structure-property relationship and discovering new properties, in …

The atomic pair distribution function (PDF) technique is a powerful approach to gain
quantitative insight into the structure of materials where the structural coherence extends …

X-ray diffraction/scattering computed tomography (XDS-CT) methods are a non-destructive
class of chemical imaging techniques that have the capacity to provide reconstructions of …

Unprecedented tools to image crystalline structure distributions in materials have been
made possible by recent advances in X-ray sources, X-ray optics and X-ray methods …

Everybody dreams to have X-ray eyes and discover the most invisible secrets of the world
around us. X-rays can probe matter (depth resolved) down to atomic resolution, if relying on …

Upscaling X-ray nanoimaging to macroscopic specimens has the potential for providing
insights across multiple length scales, but its feasibility has long been an open question. By …