forthcoming articles

van der Waals corrected density-functional-theory computations predict a new tetragonal (P4m2) equilibrium crystal structure for nickel hexa­cyano­ferrate, a F43m-structured Prussian blue analogue (PBA).

Abstract We identify experimental considerations to ensure quantitative depth-resolving operando X-ray scattering measurements in a radial transmission geometry. Abstract We identify experimental considerations to ensure quantitative depth-resolving operando X-ray scattering measurements in a radial transmission geometry.

A 2D method employing whole (or part) Debye–Scherrer rings has been used to obtain a more accurate and reliable strain-mapping result for high-density thermal barrier coatings. The method has other applications, but the use of very high energy synchrotron light makes the study of a highly anisotropic microstructure more tractable.

Stacking faults and interstratification faults in a cobalt- and aluminium-bearing nickel layered double hydroxide used as a precursor for Li(Ni_1−x−yCo_xAl_y)O₂ battery materials were quantified by a combination of a grid-search approach and a recursive routine for generating and averaging supercells of stacking-faulted layered substances implemented in the TOPAS software.

A direct comparison is made between electron backscatter diffraction and near-field high-energy diffraction microscopy measurements. A small gold oligocrystal is characterized, and reconstructed orientations and grain-boundary positions are evaluated.

The isotropic point of a uniaxial bianisotropic mixed crystal is shifted by controlling the concentration of an anion impurity in a solid-solution series. A tunable set of iso-index bandpass filters is proposed.

A multiscale analytical approach is presented for understanding the structure of micro- and nano-fabricated nanowire-based sensors. Using scanning X-ray diffraction microscopy, crystal deformation is evaluated with respect to lattice strain and tilt caused by the manufacturing process of a silicon monolith.

Book review.

The pipeline IPCAS (Iterative Protein Crystal structure Automatic Solution) integrates the direct-method program OASIS and other protein crystallography programs for experimental phasing and model building, with emphasis on direct-method single-wavelength anomalous diffraction/single isomorphous replacement phasing and direct-method-aided partial-structure extension.

Knowledge of the appearance of texture components and fibres in pole figures, in inverse pole figures and in Euler space is fundamental for texture analysis.