What is fluorofor?
and fluorofor is part of the molecule responsible for creating fluorescent emissions in visible light. Known as chromophores, different wavelengths of light are absorbed by fluorofors and create light that is visible. This is essentially an area in which the orbits of two different molecules are located. Light affects this area and excites electrons and creates light. In the case of fluorofor, this causes stimulation of less energy wavelength. Photons are absorbed by a fluorofor spectrum, but instead of creating a higher rate of excitement in the electron, it creates a lower speed. This causes clear images usually associated with fluorescence. Basically, the brighter the exposure light, the less fluorescence is visible. That's why there are many fluorescent colors to see best in light sources such as black lights. Many fish and rocks maintain the natural level of this chromophore. However, it is most common in the scientific community when used for research. Helps in the analysis to determineMaterial properties, allowing scientists to identify reactions and changes in the field of biochemistry and protein study. For example, Immunofluoressense discipline uses a technique to indicate antigens and antibodies at a subcellular level.
The most commonly used fluorofor in research is fluorescein isothiocyanate, a substance that can be chemically attached to molecules. This gives scientists a way of visualizing changes in non -cellular substances. Other examples include Kumarin, Kyanin and Rodamine. Some substances using fluorescence may have adverse effects on research due to changes in ph levels. As the research progresses, new dyes develop, each with different enthusiasm for less distracting molecules.
In addition to pure science, fluorofor modification has become a popular way to sell consumer products. One of the primary examples is Glofish ™, genetically modified Zebrafish,which is available for purchase in red, green or orange fluorescent colors. In 1999, scientists from the Singapore National University tried to create fish that could reveal pollution. By merging the green fluorescent protein of jellyfish, Zebrafish showed an animal a clear fluorescence, especially under black lights. It was soon found that other attributes from other sources such as sea coral could be used to create new colors