In this interview, AZoNano talks to Eduard Weichselbaumer, Senior Executive at PrimeNano, about the work they do in the Atomic Force Microscopy Field and the advances the company is making. Please ...

The majority of semiconductor devices are made up of heterostructures, which are stacked layers of distinctive materials deposited by utilizing distinctive methods. These layers have a thickness in ...

Atomic force microscopy is a powerful technique that has been widely used in materials research, nano-imaging, and bioimaging. It is a topographical metrology approach that is commonly utilized in ...

Photoelectrochemical devices capture light energy and generate alternative energy storage compounds. These devices rely on semiconductors to capture light energy, and nanocatalysts to drive chemical ...

Invented 30 years ago, the atomic force microscope has been a major driver of nanotechnology, ranging from atomic-scale imaging to its latest applications in manipulating individual molecules, ...

In order to increase our understanding of structural dynamics of biomolecules at the single-molecule level, they would need to be captured at the sub-nanometer scale and in physiologically relevant ...

Factor-pooling by ribosomes caught on video using state-of-art high-speed atomic force microscopy technology. Ribosomes are the complexes of ribonucleoproteins at the heart of protein synthesis in ...

For anyone that’s fiddled around with a magnifying glass, it’s pretty easy to understand how optical microscopes work. And as microscopes are just an elaboration on a simple hand lens, so too are ...

Researchers used atomic force microscopy to quantitatively evaluate how acidic and sugary drinks affect human tooth enamel at the nanoscale level. This novel approach is useful for measuring ...

Editor’s note: Neighbor Spotlight is a monthly feature that aims to let our readers learn more about the people in their communities who are working to make them a better place, who have interesting ...