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X-ray Diffraction of Biological Samples01:10

X-ray Diffraction of Biological Samples

X-ray diffraction or XRD is an analytical tool that utilizes X-rays to study ordered structures such as crystalline organic and inorganic samples, polycrystalline materials, proteins, carbohydrates, and drugs.
According to Bragg's law, when X-rays strike the sample positioned on a stage, the rays are  scattered by the electron clouds around the sample atoms. The  X-ray diffraction or scattering is caused by constructive interference of the X-ray waves that reflect off the internal crystal...
X-ray Crystallography02:18

X-ray Crystallography

The size of the unit cell and the arrangement of atoms in a crystal may be determined from measurements of the diffraction of X-rays by the crystal, termed X-ray crystallography.
Diffraction
Diffraction is the change in the direction of travel experienced by an electromagnetic wave when it encounters a physical barrier whose dimensions are comparable to those of the wavelength of the light. X-rays are electromagnetic radiation with wavelengths about as long as the distance between neighboring...
Determination of Crystal Structures01:29

Determination of Crystal Structures

In the late 1800s, the revelation that light extended beyond visible wavelengths led to the discovery of X-rays by Wilhelm Roentgen. Recognized as high-energy electromagnetic radiation with short wavelengths, X-rays prompted exploration into their interaction with crystals. Max von Laue proposed in 1912 that the periodic arrangement of atoms, ions, or molecules in crystals would cause them to diffract X-rays, a hypothesis confirmed through experiments with copper sulfate and zinc sulfide...
X-ray Imaging01:24

X-ray Imaging

German physicist Wilhelm Röntgen (1845–1923) was experimenting with electrical current when he discovered that a mysterious and invisible "ray" would pass through his flesh but leave an outline of his bones on a screen coated with a metal compound. In 1895, Röntgen made the first durable record of the internal parts of a living human: an "X-ray" image (as it came to be called) of his wife’s hand. Scientists worldwide quickly began their own experiments with X-rays, and by 1900, X-ray was widely...
Super-resolution Fluorescence Microscopy01:37

Super-resolution Fluorescence Microscopy

Super-resolution fluorescence microscopy (SRFM) provides a better resolution than conventional fluorescence microscopy by reducing the point spread function (PSF). PSF is the light intensity distribution from a point that causes it to appear blurred. Due to PSF, each fluorescing point appears bigger than its actual size, and it is the PSF interference of nearby fluorophores that causes the blurred image. Various approaches to achieving higher resolution through SRFM have recently been developed.

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Related Experiment Video

Updated: May 7, 2026

Synchrotron X-ray Microdiffraction and Fluorescence Imaging of Mineral and Rock Samples
10:12

Synchrotron X-ray Microdiffraction and Fluorescence Imaging of Mineral and Rock Samples

Published on: June 19, 2018

High-resolution X-ray diffraction and imaging.

Paul F Fewster1, Marina V Baidakova, Reginald Kyutt

  • 1PANalytical Research Centre, Sussex Innovation Centre, Science Park Square, Falmer, Brighton, East Sussex BN1 9SB, UK.

Journal of Applied Crystallography
|September 19, 2013
PubMed
Summary

This issue presents key findings from the 11th Biennial Conference on High-Resolution X-ray Diffraction and Imaging (XTOP). Discover advancements in X-ray diffraction and imaging techniques.

Keywords:
editorialhigh-resolution X-ray diffractionimaging

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Synchrotron X-ray Microdiffraction and Fluorescence Imaging of Mineral and Rock Samples
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Area of Science:

  • Crystallography
  • Materials Science
  • Physics

Background:

  • The 11th Biennial Conference on High-Resolution X-ray Diffraction and Imaging (XTOP) convened in St Petersburg in 2012.
  • This conference served as a platform for researchers to present cutting-edge work in X-ray diffraction and imaging.

Purpose of the Study:

  • To disseminate highlights and key advancements presented at the XTOP 2012 conference.
  • To provide a snapshot of the state-of-the-art in high-resolution X-ray diffraction and imaging.

Main Methods:

  • The issue compiles selected presentations and research findings from the XTOP 2012 conference.
  • Focus on high-resolution X-ray diffraction and imaging methodologies.

Main Results:

  • Showcases recent developments and applications in X-ray diffraction and imaging.
  • Highlights novel techniques and their impact on various scientific fields.

Conclusions:

  • The collected works represent significant contributions to the field of applied crystallography.
  • This issue underscores the importance of high-resolution X-ray diffraction and imaging in modern scientific research.