They then observed the self-healing at ultra-small scales in a 40-nanometer-thick piece of platinum suspended in a vacuum.
Chad Parish of Oak Ridge National Laboratory uses electron microscopy to characterize the microstructure of nuclear materials ...
Polymer tea bags release billions of plastic particles during brewing. They interact with intestinal cells, even entering the ...
Back in the early days of his college career, Chad Parish realized his curiosity and interests were drawing him to the type ...
It is often said that air and water are essential for living, but there are also very few people who can survive without ...
The BiOCl-assisted CVD method synthesizes ultrathin 2DMs at reduced temperatures, offering precise control over thickness and ...
A UAB research has characterised in detail how polymer-based commercial tea bags release millions of nanoplastics and ...
California officials have declared a state of emergency over the spread of bird flu, which is tearing through dairy cows in ...
This ant, which is actually a flightless wasp, sports a exoskeleton that mixes ultrablack regions with white areas. Researchers studying the cuticle of Traumatomutilla bifurca, a species of velvet ant ...
This review explores material encapsulation within nanotubes, highlighting advancements, challenges, and applications in ...
This study explores the in situ synthesis of gold nanoparticles within 3D-printed optical fiber probes, enhancing their ...
The authors took detailed measurements of the structure of the composite materials using scanning electron microscopy. Their analysis revealed key characteristics that determine the noise-absorption ...