BUFFALO, N.Y. -- A new, more powerful method of determining the details of molecular structure will be the topic of an international workshop to be held May 12-17 at the University at Buffalo.

Nothing brings scientists together like the possibility of better, more versatile research. Case in point: seeing the need for a new instrument that will accelerate research at one of the world’s most ...

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 ...

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, ...

Developing an effective and robust system for deepening our understanding of the characteristics of the tissue, structure, mechanical properties and organization of bone at the level of the nanoscale, ...

How do organic solar cells work on the inside? The answer lies in structures far too small to see—and difficult to access ...

2D-XRD, or two-dimensional X-ray diffraction, is a powerful analytical technique used to study the atomic and molecular structure of crystalline materials at the nanoscale. It provides detailed ...

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 ...

Advancements in structured illumination and computational imaging are revolutionizing semiconductor wafer inspection, ...

The Biophysics Collaborative Access Team (BioCAT)—led by Illinois Institute of Technology faculty Thomas Irving, Professor of ...