Researchers discovered that Li infiltration in solid oxide electrolytes for all-solid-state batteries is associated with local electronic structure at grain boundaries (GBs) rather than exclusively at Li-electrolyte interfaces as in Li-ion batt
Scientists demonstrated switching between topological and magnetic ground states by controlling the concentration of magnetic defects in a crystal.
The effect of aluminum zero mode waveguides ZMWs (Al-ZMWs) on the photophysical properties of quantum dots (QDs) was investigated.
2D materials have attracted tremendous interest as functional materials due to their diverse and tunable edge properties.
Precision synthesis approach discovered that epitaxial strain can deliberately position transition metals at a certain crystallographic position in a composite ferroelectric.
Demonstrated that structural order parameters and local concentration-driven phase transitions can be described on atomic level from scanning transmission electron microscopy (STEM) data.
Slight imperfections in state-of-the-art electronics demand novel corrections in the search for a rare nuclear decay.
Electrides are an unusual family of materials that feature loosely bonded electrons that occupy special interstitial sites and serve as anions.
The dynamic of complex ordering systems with active rotational degrees of freedom exemplified by protein self-assembly is explored using a machine learning workflow that combines deep learning-based semantic segmentation and rotationally invariant
ALICE Experiment in preparation for next data collection period at the CERN Large Hadron Collider.