Atomic force microscopy (AFM) has established itself as a decisive tool for probing nanoscale interactions, particularly adhesion forces and capillary phenomena. A precise understanding of these ...

A team of researchers at Åbo Akademi University in Finland made a surprising discovery. They found that Talin-1, a protein primarily known for its role in cell adhesion at the periphery of the cell, ...

A team of researchers at Åbo Akademi University in Finland made a surprising discovery. They found that Talin-1, a protein primarily known for its role in cell adhesion at the periphery of the cell, ...

In the realm of nanomechanical techniques, AFM is ideally suited to measuring soft materials because of its sub-nanometer vertical displacement accuracy and piconewton force resolution. One of the ...

Adhesion or tack describes the tendency of materials to form a connection to a substrate when contact pressure is applied for a short time. This property can be characterized with a Modular Compact ...

AFM is particularly well-suited to working with soft materials in the field of nanomechanical measurements, owing to its piconewton force resolution and sub-nanometer vertical displacement accuracy.