Palladium, a rare metal that physically resembles platinum, is a top-billing catalyst famous in the energy sector for ...
MIT physicists have taken a key step toward solving the puzzle of what leads electrons to split into fractions of themselves.
PI's expansion in Rosenheim strengthens its production capabilities, focusing on ergonomics and meeting the growing demands ...
According to a study published in Nature Communications, researchers have created an extremely sensitive detector for ...
Researchers from Nagoya University in Japan employed atomic-resolution secondary electron (SE) imaging to examine the atomic ...
In a recent article, researchers detailed the synthesis and characterization of Li3InCl6, a nano-ceramic solid electrolyte ...
In a study recently published in the journal Nature Communications, researchers from The University of Tokyo's Institute of ...
In a recent article, researchers analyzed defect structures in monolayer graphene and hexagonal boron nitride using STEM ...
An international team of scientists, led by researchers from the Institute of Nuclear Physics of the Polish Academy of ...
Researchers at Tohoku University have utilized deep learning to enhance Raman spectroscopy, achieving high precision in 2D ...
High-pressure homogenization is a powerful technique that can rapidly break apart stubborn cells, for example, by limiting the number of passes needed to disrupt them. As a highly scalable method, ...
Mechanical homogenizers leverage mechanical force to break down droplets and particles within a mixture, resulting in a homogeneous solution. Several subtypes of mechanical homogenizers are available.