forthcoming articles

Reconstructive, still diffusion-less and topotactic pressure-driven phase transition of CsCoO2,analysis of transition pathway using DISTORT.

Electron diffraction tomography is optimally suited to determine the crystal structure of metal-ion battery cathode materials at different states of charge. This feature paper discusses the possibilities, hurdles and advantages compared to other techniques.

The structure of synthetic tennantite Cu12As4S13 has been investigated at various temperatures in the 90 – 293 K range. Refinements showed significant disorder at high temperatures for the triangular coordinated copper atoms and fixed atomic positions at low temperatures. One particle potential has been used to distinguish the type of disorder at copper sites.

Numerical approaches have been developed to extract more than the dominant signal from stacks of scanning precession electron diffraction patterns. Nano precipitates embedded in iron or Al based matrix have been properly identified with these technics

This a review of the different 3D electron diffraction techniques.

The modulated crystal structure of the mineral daliranite has been determined using 3D electron diffraction on nanocrystalline domains.

Multi-fluorescent properties of a tri­phenyl­amine derivative are investigated under different conditions.

A review on electron pair distribution function (ePDF) analysis is presented. A quantitative treatment of ePDF is demonstrated for a nanocrystalline anatase sample.

Electron Diffraction Tomography (EDT), a potential method for structure analysis of nanocrystals, and, in more detail, the strategies to use Automated Diffraction Tomography (ADT) technique are described. Examples of ADT application are discussed according to the material class.

Methods and applications for crystallographic mapping using scanning electron diffraction in the transmission electron microscope are reviewed.

The metastable incommensurate structure of basaltic plagioclase phenocryst varies with the composition and cooling rate of the host rock, which may enable scientists to quantitatively study the thermal history of volcanic rocks in new ways.

Carbon nitrides include functional materials and a range of carbon nitride products obtained from the pyrolysis of NH₄SCN is presented here.