An interview with Samuel Lesko, European Applications Manager, Bruker Nano Surfaces conducted by April Cashin-Garbutt, MA (Cantab). Can you please give an overview of the FastScan AFM system? The ...

By testing different molecules and buffer solutions, researchers can determine the probability of molecule adhesion, a process that requires many repetitive measurements. This has implications in drug ...

insights from industryDr. André KörnigApplication ScientistBruker BioAFM In this interview, Dr. André Körnig, Application Scientist at Bruker BioAFM discusses the applications of BioAFM in the life ...

Atomic Force Microscopy (AFM) is pivotal in nanoscience, offering high-resolution imaging and manipulation for advancements in semiconductors and life sciences.

Figure 2: AFM-based imaging of native biological systems to molecular resolution. Figure 3: Force–distance curve-based AFM. A critical issue when analysing adhesion forces detected by FD-based AFM is ...

Polymers have been widely used in most fields of science and industry for various purposes due to their unique properties. Implementing polymer materials with different structures and functions (i.e., ...

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, ...

What is Atomic Force Microscopy? Atomic force microscopy has been an effective and essential method utilized extensively for nanotechnology, physics, and biological applications. It is a surface ...

Atomic Force Microscopy (AFM) is a type of high-resolution scanning probe microscopy that allows for imaging, manipulation, and force measurement. Atomic Force Microscopy was first developed in 1986 ...