forthcoming articles

High-resolution small-angle X-ray scattering setup based on refractive optics and a variable sample position allows one to achieve tuneable resolution in the direct and reciprocal space. This setup is designed for the study of structural ordering on nano- and micro- scales simultaneously.

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A major problem in characterizing the strain in non-planar structures is to resolve in a standard framework the interplay between the different contributions. In this article, we report an efficient, non-destructive X-ray laboratory formalism that allows a good control of the local examination, providing the strain mapping along the nanowires' length and a quantitative description of the energy transfer inside of the nanowires array, as well as an estimation of the emerged structural defect densities.

Reflectivity curves of the polarized neutrons remarkably vary as a function of proton polarization of film samples. We demonstrated that detailed structural information of each surface and interface of multilayer film samples can be obtained from these proton-polarization-dependent multiple reflectivity curves.

A method is described for maintaining sample alignment to a high accuracy during in situ X-ray synchrotron investigations involving 3D mapping of crystal orientations, and application of the method to in situ deformation of samples of fine grain-size aluminium is described.

This work has developed, characterized and tested coating procedures for 3D printed droplet generators and also demonstrates sample injection in serial femtosecond crystallography with X-ray free-electron lasers to reduce the vast amount of sample wasted in these crystallography applications.

Gas stream cooling at 100 K is found to yield lower mosaicity than plunge cooling into liquid nitro­gen at 77 K for several different protein crystals.

The residual stress and piezoelectric performance of ZnO thin films under different annealing parameters are investigated. The amplitudes of the sample vibrations at different frequencies are measured by a pressure electron microscope.

The article discusses how theoretical crystal data are supplementing experimental data for simulation and prediction of structures of inorganic solids in the Inorganic Crystal Structure Database.

Shock-wave-induced crystallization in water samples is reported and the mechanism is discussed. The technique provides an alternative method of understanding the crystallization behaviours of different liquids and solid materials, and it can be used as a water purification method.

A cross-section analysis is presented of defects in ZnO nanospikes, investigated by means of transmission electron microscopy and defect simulation.

This work describes in detail the crystal structure determination of Mo-substituted lanthanum tungstates through neutron diffraction and high-resolution X-ray diffraction as a function of temperature between T = 10 K and T = 298 K. Combined X-ray and neutron-diffraction refinements and electron-probe micro-analysis were employed to locate Mo atoms in the crystal structure of La_5.4W_1−yMo_yO_12−δ (0 ≤ y ≤ 0.2).

2D X-ray diffraction and vibrational spectroscopy are used to follow changes in bone remodelling due to different health conditions (pregnancy, lactation) and bone pathologies (phosphate deficiency) in mice.

This paper compares several well known methods for denoising orientation data with methods adapted from mathematical image analysis.