In a report published in Advanced Materials, researchers investigated 2D perovskites using ultrafast transient X-ray diffraction as a function of optical excitation fluence to discern structural dynamics.
In the Journal of Physical Chemistry C, scientists report that CdSe nanoparticles show better optical features than even the best preparations of colloidal quantum dots of the same composition.
In an npj Computational Materials paper, scientists report on a Crystal Edge Graph Attention Neural Network able to classify materials across multiple scales (from atomic to mesoscale) and diverse classes (metals, non-metals, zeolites, etc.)
In a paper appearing in AVS Quantum Science, researchers discuss how recent developments in defect-based quantum sensing pave the way for directional detection of dark matter.
As reported in the Journal of the American Chemical Society, researchers achieved quantum sensing for quantifying chemical analytes in ambient conditions.
In a report published in ACS Nano, researchers demonstrate a near-infrared nanolaser using a polymer microsphere as the microcavity and semiconducting single-walled carbon nanotubes as the gain material.
In a paper appearing in Quantum Science and Technology, researchers present a theoretical analysis showing that a single-electron qubit floating on a solid neon could achieve a coherence time as long as 81seconds.