From nano to macro: upscaling imaging of the mouse brain Can one effectively upscale x-ray images from nanoimaging to macroscopic specimens within reasonable imaging times?
Recognizing software as essential for scientific discovery In the introduction to the July 2021 special issue of the journal SoftwareX, Keahey and her coeditors present a strong argument for giving software the respect it deserves – and the funding that must accompany it.
One-dimensional friction at the atomic scale In a study published in Nano Letters, researchers investigated friction at the atomic scale.
2D-carbide MXenes with multiple transition metals In a study published in ACS Nano, researchers synthesized a new material with tunable properties.
AI guided de novo molecular design targeting COVID-19 In a study published in ACS Omega, researchers used artificial intelligence to discover drug candidates that target COVID-19.
Plasmonic coupling imaged with ultrafast electron microscopy In a study published in Nano Letters, researchers used ultrafast electron microscopy to probe material dynamics at the nanoscale.
Coherent gate operations in hybrid magnonics In a study published in Physical Review Letters, scientists demonstrated a new way to tune hybrid magnonic dynamics.
Microfluidic neurotransmitter-sensing probes In a study published in Sensors and Actuators B: Chemical, researchers developed a device that can sense neurotransmitters in the brain.
Nanoscale X-ray imaging with physics-aware deep learning In a study published in Applied Physics Reviews, researchers developed a model to predict material properties from X-ray scattering data.
A pathway to neuromorphic computing and nonvolatile memory applications In a study published in ACS Nano, researchers show the potential of ultraporous materials in neuromorphic computing.