X-ray crystallography is a powerful non-destructive technique for determining the molecular structure of a crystal. X-ray crystallography uses the principles of X-ray diffraction to analyze the sample ...

Single crystal X-ray diffraction remains the most powerful technique to determine the three-dimensional structure of biologically important macromolecules and their functional ligand complexes at or ...

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, ...

Three-dimensional imaging is dramatically expanding our ability to examine biological specimens enabling a peek into internal structures. Recent advance in X-ray diffraction method has greatly ...

A new X-ray diffraction technique that works on single organic molecules has been demonstrated by an international team of researchers. The team hopes that, with further development, the method could ...

The Materials Research X-Ray Diffraction (XRD) Facility at the University of Colorado Boulder provides cutting-edge capabilities for probing the structures of materials such as polymers, biological ...

Carbonate analysis through X-ray diffraction (XRD) techniques has been well documented, and research into both carbonates and clays dates back many decades. An abudance of research has been published ...

The X-ray diffraction (XRD) facility comprises several state-of-the-art instruments used for phase identification, quantification and crystal structure analysis. Our laboratory specialises in the ...

Developing reliable and effective methods for the detection of explosive materials has become paramount in recent decades following high profile cases of terrorism, such as the events of 9/11. Since ...

X-ray diffraction methods lie at the foundation of materials science. Determination of the crystal structures of natural minerals and, later, of crystals grown in the laboratory led to our ...