A new AI system from Columbia Engineering analyzes nanocrystal patterns to accurately determine atomic structures, enhancing ...

The low-damage imaging technique developed at JAIST reveals intricate details of fragile nanomaterials, paving the way for advancements in materials science.

Atomic-scale imaging reveals that chalcogen atoms play a crucial role in Cooper pairing in Fe-based superconductors, offering ...

One longstanding problem has sidelined life-saving drugs, stalled next-generation batteries, and kept archaeologists from ...

Many atomic nuclei have a magnetic field similar to that of Earth. However, directly at the surface of a heavy nucleus such ...

The achievement represents a major step forward, potentially unlocking innovations across numerous fields that rely on ...

A scientific revolution is underway as researchers push to bring atomic-level precision, once reserved for small molecule ...

With high-resolution, fast-scan Atomic Force Microscopy, we will directly visualize the structure and dynamics of protein complexes on membranes in real time. The Department of Membrane Dynamics ...

In our studies we utilize chemical synthesis methods, biomolecular NMR coupled with restrained Molecular Dynamics (MD) simulations for determining the atomic detail structure of these architectures.