forthcoming articles

The rocking curve imaging technique was realized by a two dimensional X-ray detector and laboratory sealed X-ray tube in order to map the local crystal lattice bending inside arrays of extremely tall epitaxial SiGe microcrystals grown on patterned Si substrates. The domains formed by cracks were imaged in highly asymmetric diffraction setup.

Abstract Contrast variation USANS of vulcanized SBR rubber has clarified that ZnO clusters surrounded by dense networks of SBR exist in the rubber. The size of the ZnO clusters is in the order of 1000 Å.

Here we report a novel capillary-based microfluidic strategy to accelerate the small-molecule compound screening processes by room temperature X-ray crystallography using protein crystals.

The multi-purpose four-circle diffractometer in Tel Aviv University is described. The design, the beam quality (flux/divergence), the application of the diffractometer for various tasks for in situ X-ray crystallography of functional materials are demonstrated.

The position and shape of Bragg edges in wavelength-resolved neutron transmission spectra depend on the crystal structure and on the crystallographic texture of the material. This work describes a novel method to obtain integral parameters of the orientation distribution function from these spectra with the aim of estimating material properties.

The step size, angular range and intensity of X-ray powder diffraction data and the number and type of refinable parameters have been examined with respect to their effect on quantitative phase analysis by the Rietveld method.

A combined specular and off-specular neutron reflectometry analysis algorithm on an absolute scale is presented. Experimental data from thermally annealed immiscible polymer bilayer systems are fitted.

An incommensurately modulated structure zone in the α-Zr matrix of forged Zircaloy-4 alloy was investigated by transmission electron microscopy and related techniques.

A novel aerosol device for protein crystal complexation using ultrasonic vibrations is described.

A non-destructive X-ray laboratory method was developed to enable determination of the static Debye–Waller factor distribution along the z axis for porous layers, which further allows the quantification of the porosity gradient. Accordingly, grazing-incidence X-ray diffraction at different incidence angles was employed to obtain a wide range of X-ray penetration depths down to the interface of the porous layer with the substrate.

Anomalous small-angle X-ray scattering (ASAXS) allows one to obtain information about the spatial distribution of specific atoms in a sample, but its application to dilute biological samples is challenging because of weak anomalous effects. ASAXS experiments from dilute solutions of ferritin and cobalt-loaded apoferritin near the resonance X-ray K edges of Fe and Co, respectively, have been performed at the P12 bioSAXS beamline of the EMBL at PETRA III synchrotron, DESY.

The texture measurement capabilities of the NOMAD beamline at the Spallation Neutron Source and the NRSF2 beamline at the High Flux Isotope Reactor at Oak Ridge National Laboratory are discussed. Texture analyses using two common analysis methods, Rietveld texture analysis using the MAUD program and pole figure inversion using the MTEX MATLAB toolbox, are presented.

An investigation of the precision, accuracy and confidence of the whole pattern (WP) and Williamson–Hall (WH) methods of crystallite size determination has revealed insight into the long-standing debate on the quantitative capability of X-ray diffraction for estimating crystallite size. The WP method demonstrated precision, accuracy and confidence, allowing quantitative crystallite size determinations to be made. The WH method demonstrated precision in its crystallite size determination, but it also demonstrated a low-biased accuracy and a broad confidence from an ill-posed inverse problem.

A gas-pressure cell for in situ neutron powder diffraction based on a sapphire single crystal is described including materials information, technical drawings and instructions for use.

Satellites generated by small dislocation loops in polycrystalline proton- or neutron-irradiated Zr alloys are characterized by X-ray line profile analysis. The convolutional multiple whole-profile procedure has been extended to characterize irradiation-induced satellites around fundamental Bragg peaks.