Freeze-Fracture Electron Microscopy of Polystyrene Colloidal Crystals

## Abstract The most common electron microscopic technique for obtaining information on size distributions of uncollapsed membrane vesicles is based on the method of van Venetie (1980). This technique involves the sizing of only those vesicles that were freeze fractured at their equatorial planes.

## Abstract The distribution of fibers in agarose gels has been studied by electron‐microscopic examination of replicas formed from freeze‐fracture surfaces. For gels set in water, the results obtained support the model proposed for the gel structure by Arnott et al. (1974) of a random array of lon

A combined technique of the rapid freezing, freeze substitution-fixation method and the osmium-DMSO-osmium method was devised. By this combined method we clearly observed the architecture of intracellular components in three dimensions. Morphological characteristics were generally similar to those o

microstructural evolution in gels during freeze-drying. The high vacuum environment of the SEM coupled with intentional heating of the gel sample Direct imaging of microstructures in chelated aluminum alkoxwith a heater or under the electron beam produces conditions very similar ide systems subjecte

Morphological similarities between virgin ultrahigh-molecular-weight polyethylene (UHMWPE) powder and debris retrieved from failed UHMWPE total joint implants motivated this study's objective: to establish the internal microstructural features of consolidated UHMWPE. Cylindrical specimens were cored