Coplen-Jones Fibers

Coplen-John fibers are fibrous structures that are formed as a result of the polymerization of monomeric molecules using covalent bonds. They have the shape of coral-shaped fibers, which makes them unique and attractive for use in various fields of science and technology.

Coplen-Jones fibers were discovered in the 1950s by American chemist James Coplen and British scientist George Jones. They discovered that when monomers are polymerized using ultraviolet light, fibers with unique properties are formed.

One of the main advantages of Coplein-John fibers is their high strength and resistance to chemical influences. They can withstand high temperatures, pressure and other aggressive conditions. In addition, Coplena-John fibers have a low density, which makes them lightweight and easy to use.

Another important property of Coplen-John fibers is their ability to conduct electricity. They can be used to create conductive materials such as wires and cables.

Coplena-John fibers are also a promising material for creating solar cells and other devices that use solar energy. They have high efficiency in converting solar energy into electrical energy, which makes them an attractive material for solar energy.

In general, Coplena-John fibers are a unique material that has many useful properties and can be used in various fields of science and technology.

Coplen-Jones fibrous cancroid is a compact tumor formation ranging in size from a small tumor to a pathological soft tissue tumor such as lipogranulomatosis, round, oval or elongated. The formation can reach large sizes, and in this case, a dense lytic zone with remnants of the main tissue is observed at the base of the tumor. Along the periphery, the tumor moderately infiltrates into the surrounding tissues with corresponding deformation of organs.

Until recently, there was an idea that this lesion was benign. The discovery of numerous glands containing cholesterol with various forms of lipids (Milne molecules) showed their origin from the tumor and indicates that this tumor has a typical histological picture of the malignant process, and also confirms the presence of its tumor nature.

Many stromal elements of the tumor are densely permeated with individual calcium crystals. The characteristic calcification of a tumor node is common and most clearly illustrates the morphological nature of the cluster