noun the emission of light by a substance that has absorbed light or other electromagnetic radiation
Fluorescence imaging is used in medicine for diagnostics, such as in detecting tumors or monitoring biological processes.
Fluorescence is commonly used in analytical chemistry for the detection and quantification of various compounds.
Fluorescence is utilized in physics for studying the properties of materials and light-matter interactions.
In biology, fluorescence is used for labeling and imaging specific molecules or structures within cells.
Fluorescence is important in materials science for characterizing and studying the behavior of materials.
In the field of chemistry, a writer may discuss the fluorescence of certain compounds and how it can be used in various analytical techniques.
A psychologist may use fluorescence imaging techniques to study brain activity and neural pathways in research studies.
Biologists may utilize fluorescence microscopy to visualize and study cellular structures and processes in living organisms.
Chemists often use fluorescence spectroscopy to analyze the properties of molecules and compounds in their research and experiments.
Materials scientists may explore the fluorescence properties of materials to develop new technologies such as sensors, displays, and optical devices.