THE investigation of the structure of matter by means of X-rays became possible with Laue's discovery of the crystal diffraction of X-rays in 1912, and following on this, the great pioneer work of the ...

The advanced course covers a wide range of topics including systematic errors, factors affecting intensities of diffraction peaks; data reduction algorithms; phase identification; advanced data mining ...

The advanced clinic covers factors affecting d-spacings of crystals, as well as factors affecting diffraction-line intensities; structure-sensitive properties (atomic scattering and structure factors) ...

Specimen mounting in x-ray powder diffraction affects peak positions and intensities. The specimen-mount procedure is one of the many actions an investigator employs that could dramatically affect ...

The authors discuss the valuable information that can be obtained from indexing and its applications in routine screening and analysis of solid forms. Crystal-structure determination using X-ray ...

The technique is typically carried out on a single crystal, but because not all substances easily form good quality crystals, powder X-ray diffraction (PXD) is sometimes used instead. Powder X-ray ...

This course will explain x-ray diffraction and related phenomena in terms of the kinematical, optical and dynamical theories of x-ray scattering. X-ray diffraction, reflectivity, standing waves and ...

This video shows how the X-ray powder diffraction sample preparation, measurement and analysis is now easy with Bruker’s D2 PHASER instrument. The D2 PHASER desktop X-ray diffraction tool enables ...

In pharmaceuticals, PXRD is most commonly used to detect traces of polymers. Better detectors and optical technologies are being developed primarily to push the limits of detection (LOD) still lower.

X-ray diffraction (XRD) is a technique in which the diffraction of X-rays by a sample of interest is analyzed. When used as a basic technique (X-ray powder diffraction), it can determine the ...