The study of biological systems varies from whole organisms, organs, and organoids, down to their building blocks of proteins and cells. At the lower end of the scale, atomic force microscope (AFM) ...

Surrounded by nutrients and undetected by the immune system, the interior of a cell is the ideal place for pathogenic bacteria to reproduce. Nevertheless, it was long thought that they existed outside ...

Bio-AFM is a cutting-edge technique rooted in the rich history of atomic force microscopy. Here, we discuss its applications to nanoscience. Studying nanoscale biological specimens has been important ...

Current optical and electron microscopy imaging techniques are not suited for measuring the dynamic characteristics of living microorganisms at tiny scales due to complex sample preparation methods or ...

BioAFM is seeing increasingly widespread use in biomedical and biological studies due to its extremely high resolution and its capacity to perform experiments with live cells in liquid and under ...

The Asylum Research MFP-3D Origin+ Atomic Force Microscope offers high-resolution imaging, supports large samples, and comes with a full range of imaging modes and accessories. Cantilevers are located ...

Escherichia coli bacteria imaged by high-speed inline force mapping and fluorescence microscopy. Simultaneous topography and elastic modulus maps show a stiffening of the division site. Light and ...