High Throughput Discovery and Design of Strong Multicomponent Metallic Solid Solutions.

High Entropy Alloys (HEAs) are new classes of structural metallic materials that show remarkable property combinations. Yet, often times interesting compositions are still found by trial and error. Here we show an "Effective Atomic Radii for Strength" (EARS) methodology, together with different semi-empirical and first-principle models, can be used to predict the extent of solid solution strengthening to discover and design new HEAs with unprecedented properties.

Characterization of crystalline drug nanoparticles using atomic force microscopy and complementary techniques.

Purpose: The purpose of this work was to image crystalline drug nanoparticles from a liquid dispersion and in a solid dosage form for the determination of size, shape, and distribution.

Methods: Crystalline drug nanoparticles were adsorbed from a colloidal dispersion on glass for atomic force microscopy (AFM) imaging. Nanoparticles that were spray coated onto a host bead were exposed by ultramicrotomy for scanning electron microscopy and AFM examination.

Ab initio structure determination of rofecoxib from powder diffraction data using molecular packing analysis method and direct space method.

Crystal structures of a COX-II inhibitor, rofecoxib (Vioxx) were solved ab initio from X-ray powder diffraction pattern using both molecular packing analysis and direct space methods. The X-ray powder pattern was indexed into a tetragonal cell. Packing energies were generated and analyzed in eight most frequently found tetragonal space groups.