Atomic force microscopy (AFM) has been leveraged to study the surface defects of natural rubber vulcanizates so that their structural−mechanical properties can be defined. This data is vital to ...

To facilitate the interpretation of experimental imaging, Romain Amyot and Holger Flechsig from NanoLSI have now developed the mathematical framework and computational methods to reconstruct 3D ...

Polymers are materials composed of repeated chains of molecules. Both natural and synthetic polymers possess many important properties that are influenced by the conformation and composition of ...

For smartphones and computers to become smaller and faster, technologies capable of precisely controlling electrical properties at the nanoscale—beyond what is visible to the naked eye—are essential.

A standard single frequency AFM is comprised of a boron-doped silicon (Si) or silicon nitride (Si 3 N 4) cantilever with a length of a few micrometers and a single crystal diamond tip at the bottom of ...

Graphene is a zero bandgap semiconductor with high electrical conductivity, making it a potential candidate for advancing the semiconductor industry. It is a highly robust material, with a tensile ...

A new technical paper, “Characterizing tip-sample interaction dynamics on extreme ultraviolet nanostructures using atomic ...

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, ...

Could you briefly share your background and how you came to focus on AFM technologies within the cosmetics industry? My name is Alexander Dulebo, and I’m a Bio Sales Application Engineer at Bruker, ...