Characterization of dynamic cellular adhesion of osteoblasts using atomic force microscopy

An atomic force microscope (AFM) has been used to quantify directly the adhesion of metabolically active Saccharomyces cerevisiae cells at a hydrophilic mica surface, a mica surface with a hydrophobic coating, and a protein-coated mica surface in an aqueous environment. The measurements used "cell p

## Abstract One of the most important challenges in polyurethane (PU) science is characterization of foam morphologies, which provides information to help understand material properties and improve synthesis conditions. Atomic force microscopy (AFM) is a very useful technique to obtain such informa

## Abstract Some peptides have previously been reported to bind low molecular weight chemicals. One such peptide with the amino acid sequence His–Ala–Ser–Tyr–Ser was selectively screened from a phage library and bound to a cationic porphyrin, 5,10,15,20‐tetrakis(__N__‐methylpyridinium‐4‐yl)‐21__H__

The origin of contrast in atomic force microscopy (AFM) lies in the probe's response to forces between itself and the sample. These forces most commonly result from changes in height as the tip is scanned over the surface, but can also originate in properties inherent in the sample. These have been

## Abstract The atomic force acoustic microscopy (AFAM) technique has been used to determine elastic properties of films with thicknesses decreasing from several hundreds of nanometers to several nanometers. It has been shown that metal films as thin as 50 nm can be characterized directly without t

By using atomic force microscopy (AFM)/lateral force microscopy (LFM), a comparative study of the topography as well as the tribological properties (at a micrometer scale) of sized E-glass fibers was done. Normal and lateral deflection signals are recorded when an AFM tip scans a fiber surface. Fric