Virtual apertures let researchers isolate and solve atomic structures from individual nanocrystals embedded in dense clusters, providing valuable new data for energy and pharmaceutical applications.

Abstract: The Atomic Force Microscope (AFM) is one of the most versatile tools in nanotechnology. For control engineers this instrument is particularly interesting, since its ability to image the ...

In this tutorial, we build an advanced, end-to-end learning pipeline around Atomic-Agents by wiring together typed agent interfaces, structured prompting, and a compact retrieval layer that grounds ...

Next-generation technology requires next-generation materials that can be tailored to exact mission requirements. Additive manufacturing, or 3D printing, has already revolutionized industries like ...

UCLA scientists have characterized the structure and function of a key survival protein in breast cancer cells that helps explain how these tumors resist environmental stress and thrive in acidic, low ...

Artist’s illustration of gold compressed to ultra-high pressures by laser pulses at the National Ignition Facility.Jacob Long/LLNL Researchers have captured the most detailed look yet at how gold’s ...

Researchers found they could tune the energy difference between the layers by more than half an electron volt. (Representational image)LE/Pencho Researchers’ new method that delivers more control over ...

Microscope close-up. Credit: University of Liverpool Faculty – CC BY 2.0 via Flickr. A research team from the University of Victoria says it has reached a microscopy breakthrough with a way to see ...

Researchers with the Department of Energy's Oak Ridge National Laboratory and the University of Tennessee, Knoxville, have created an innovative method to visualize and analyze atomic structures ...

Plutonium has captured the attention of scientists since its discovery in the early 1940s. This enigmatic element has an important role to play in emerging energy technologies like nuclear batteries ...

Scientists have discovered a brand-new material with a unique atomic structure—something they weren’t even looking for. While trying to make borophene, a promising but elusive two-dimensional material ...