Roughness determination of plasma-modified surface layers with atomic force microscopy

Roughness images of fractured steel surfaces were recorded at micrometric level (100-10 000 nm) using an atomic force microscope. We have observed a power law variation of the profile root-mean-square YS. the analysis length. If there is no overall tilt of the images, this variation is indicative of

Atomic force microscopy in conjunction with the colloid (silica) probe technique has been used to quantify the variations in electrical double-layer interactions and adhesion at different locations on a rough reverse osmosis membrane (AFC99) surface in NaCl solutions. Prior scanning of the membrane

The formation of multi-atomic steps (step-flow growth with step-bunching) on the surface of 111-V semiconductor compounds during metal-organic vapor-phase epitaxial (MOVPE) growth is a phenomenon of considerable significance. As low-dimensional material arrangements are widely used in novel opto-and

Adhesion force distributions of silica spheres (5 and 20 mm) and salmeterol xinafoate (4 mm) particles with inhalation grade lactose surfaces and spin coated lactose films were determined by atomic force microscopy (AFM) to investigate the influence of surface roughness on the force distributions. T