In this interview Prof. Dr. Kristina Kusche-Vihrog speaks about the nanomechanics of living cells and their implications for ...

Developed as a way to image the surface of materials, atomic force microscopy is revealing new insights into molecular processes in cells. The invention of the optical microscope in the ...

In pharmaceutical research, AFM detects the interaction between supported lipid bilayers (SLBs) and drugs (e.g., azithromycin). 20 It also characterizes microbial surfaces including their physical ...

Owing to the limitation of AFM imaging on living mammalian cells, AFM force mode has become an essential and more popular mode than imaging in living cell studies. With AFM force mode ...

BioAFM instruments are designed to measure soft, fragile, and complex samples, including single molecules, nucleic acids, ...

Breakthrough study uses chromosome physical properties to monitor breast cancer therapy outcomes and predict recurrence ...

EC-AFM is extensively used in the study of energy storage and conversion devices, such as batteries, fuel cells, and supercapacitors. It allows for the investigation of electrode materials, ...

Healthy cells have different mechanical properties than pathological cells. Biomechanical measurements performed with an atomic force microscope (AFM) have shown that it is possible to distinguish ...

These images captured using high-speed atomic force microscopy, represent the snapshots of the protein substrate getting ...

The full abstract will be published online on April 25, 2025. More details about the programs for the AACR Annual Meeting 2025 are available online at AACR Annual Meeting 2025 | Meetings | AACR.