Breakthrough in stabilizing nanocrystals introduces a low-cost, energy-efficient light source for consumer electronic devices, detectors and medical imaging.
In a study published in npj Computational Materials, researchers report nanoscale resolution with transmission electron microscopy using an automatic differentiation method.
Using the powerful X-ray beams of the Advanced Photon Source with new computer-driven algorithms, scientists will be able to study batteries and electronics at nanometer scales.
Tomorrow’s quantum sensors, computers and networks will share, process and secure exponentially more information — starting with the scientific data that will make this wave of the future possible.
A team of Argonne scientists has leveraged artificial intelligence to train computers to keep up with the massive amounts of X-ray data taken at the Advanced Photon Source.
Argonne-driven technology is part of a broad initiative to answer fundamental questions about the birth of matter in the universe and the building blocks that hold it all together.