This article covers the different ways in which new lab-based PXRD systems can help scientists in the pharmaceutical industry synthesize novel, stable compounds of a high quality and commercialize ...
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.
A major challenge in materials science is the determination of the structure of nanometre-sized objects. Here we present an approach that uses a generative machine learning model based on diffusion ...
Dr. Thomas Hartmann and Dr. Sascha Correll, of STOE, are experts in the field of x-ray crystallography. AZoNano spoke to both of them about STOE's new piece of equipment; the INSITU HT2, how it can be ...
The characterization of individual components in an unknown crystalline powder mixture is a challenge that has eluded scientists for many years. Now, A*STAR researchers have for the first time ...
This white paper explores a number of ways that today’s modern, laboratory-based PXRD instrumentation and advanced software can greatly assist pharmaceutical scientists in their quest to develop high ...
The characterization of individual components in an unknown crystalline powder mixture is a challenge that has eluded scientists for many years. Now, researchers have for the first time invented a ...
Despite this significant progress, connecting newly synthesized materials to their best possible applications remains a challenge 11. Determining the properties of a material requires extensive ...
X-ray diffraction patterns of theophylline monohydrate (Theo-FM) held at 5% rH collected between 5 ˚C and 83 ˚C. Conversion from the monohydrate to a metastable form occurs (Theo-Meta). At 55 ˚C the ...