Discover how the PolCA force field revolutionizes organosilicon molecule simulation in liquid phase with unprecedented accuracy and computational efficiency.
Discover how scientists are using ultrafast lasers and computational chemistry to film chemical reactions, starting from optimized intermediate structures, to create new medicines and materials.
Discover how scientists are using quantum conversations between hydrogen and sodium nuclei to achieve ultra-sharp MRI and NMR images in imperfect magnetic fields.
Explore how algebraic approaches are transforming molecular modeling, from drug discovery to understanding genome evolution through advanced mathematical frameworks.
Explore the fascinating science of naming things, from species to celestial bodies, and how DNA sequencing is revolutionizing classification systems.
Discover how Metol, a common photo-developing chemical, is emerging as a powerful corrosion inhibitor for steel infrastructure.
Discover how advanced NMR techniques uncovered the atomic structure of montmorillonite clay, revealing three distinct aluminum sites and revolutionizing materials science.
Explore the revolutionary material of porous graphene - its synthesis, properties, and world-changing applications in energy, computing, and more.
Exploring how Black-Box Optimization is transforming scientific discovery through automated experimentation and AI-driven research.
Exploring how AI and quantum chemistry are transforming molecular discovery through in silico experiments, from quantum foundations to cutting-edge applications in drug design.