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 ...

Researchers from the Vienna University of Technology have successfully measured and described the interaction between metal ...

According to a study published in Biomaterials Advances, scientists at the University of Copenhagen have developed a patch ...

In a recent article, researchers examined the adsorption capabilities of MIL-101(Fe)/graphene and g-C3N4/graphene composites ...

New research finds n Gii can be used as a highly detective material in broadband photodetectors, which could lead to faster ...

Dr. Andre Koernig discusses the evolving capabilities of atomic force microscopy (AFM), highlighting its applications in ...

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.

Homogenization is vital in many industrial processes, including food, cosmetics, and pharmaceuticals. High-pressure homogenization and sonication are two widely used homogenization techniques. However ...