Advanced Computing Brings Autonomous Investigations to Nanostructured Surfaces
Machine learning and artificial intelligence accelerate nanomaterials investigations.
Machine learning and artificial intelligence accelerate nanomaterials investigations.
A new microscopy technique measures atomic-level distortions, twist angles, and interlayer spacing in graphene.
New computational methods “fingerprint” polymer motions under flow.
This new Laue lens system received a 2022 Microscopy Today Innovation Award.
New algorithms allow real-time interactive data processing at 10X previous rates for electron microscopy data.
Three proteins work together to transmit signals for cell division, revealing new targets for cancer-fighting drugs.
Laser-based additive manufacturing produces high-entropy alloys that are stronger and less likely to fracture.
Solving atomic structure and binding for improved antiviral drugs.
New gate design leads to fast coherent control of novel electromagnonics devices.
Synthetic peptide assemblies show promise as bioelectronic materials.
Covering metal catalyst surfaces with thin layers of oxide materials can enhance chemical reactions.
Machine learning methods support human operators in diagnosing and fixing failing subsystems in an accelerator-driven X-ray laser.