X-ray diffraction (XRD) is a powerful non-destructive analytical technique used to evaluate crystalline materials and determine their structural properties. As one of the most widely used ...

X‐ray imaging techniques have evolved substantially over recent decades, transcending traditional transmission radiography to incorporate diffraction, scattering and computed modalities. These ...

X-ray techniques have been used for decades by authorities to prevent crime and keep people safe. Perhaps their most well-known use is for the detection of dangerous and banned items or substances, ...

Particle size analysis is crucial to quality control and product development in a number of key industries including aerosols, construction, food and beverage, paint and coatings, and pharmaceuticals.

X-ray Diffraction (XRD) plays a pivotal role in material characterization during the production of lithium-ion battery electrodes. For anodes, it helps analyze the degree of graphitization in graphite ...

XRD works by directing X-rays onto a crystalline material and analyzing the angles and intensities of the diffracted beams. The atomic planes within the crystal act as a three-dimensional grating, ...

In this session the details of XRD experiment design will be discussed with topics such as; understanding what will be determined from the sample, sample preparation, sample mounting, and details of ...

In this article, we explore how X-ray diffraction, also known as XRD, can be used to analyze thin films and the benefits of using this technique. Many materials are now processed in the form of thin ...

X-ray crystallography, like mass spectroscopy and nuclear spectroscopy, is an extremely useful material characterization technique that is unfortunately hard for amateurs to perform. The physical ...

“X-ray diffraction imaging (XRDI) (topography) measurements of silicon die warpage within fully packaged commercial quad-flat no-lead devices are described. Using synchrotron radiation, it has been ...