Temperature's effect on Chemiluminescence

Influence of temperature on chemiluminescence On autumn nights, bonfires are not treated as cold light even if they sit on fire. Is there such a thing? "Cold light" means the word "bright" (Fluorescent Minerals Association, 1/2). Cold light can be seen at various temperatures. Cold light is not only present, but there are several types of luminescence including bioluminescence or "live light", photoluminescence or fluorescence, "daylight", and latent or "afterglow" phosphorescence (Fluorescent Mineral Society, 1/2).

Chemiluminescence generates light by chemical reaction. Bioluminescence is simply the chemiluminescence of living things. Therefore, bioluminescence can be thought of as a subset of chemiluminescence. The chemical reaction for generating light is very effective compared with other light generation methods. Therefore, due to the relatively small amount of heat generated, bioluminescence is also called "cold light". In contrast, incandescent light bulbs are called "hot lights" because most of the energy used to generate light is wasted as heat (Simon 13). Fluorescence, on the other hand, is the result of a special coating on a bulb that absorbs ultraviolet energy and then releases energy with longer wavelength visible light. Phosphorescence is similar to fluorescence, but it takes longer to re-irradiate. This slows the overall process (Binger 1)

Chemiluminescence is the process of generating light by chemical reactions with little or no heat generation. Unlike phosphorescence and fluorescence, chemiluminescence does not require absorption of an external photon source to reach an excited state. Conversely, when molecules are excited by a series of chemical reactions, chemiluminescence occurs. Molecules in lower excited singlet state than normal may naturally lose their electronic energy in the form of photons. In fluorescence, the electron spin (→ S = 0) is retained, but the chemiluminescence intensity can be expressed as follows.

As a result of a given reaction heat and light emission takes place, a phenomenon known as chemiluminescence, ie chemiluminescence, refers to the emission in the exelson reaction. For example, when two reactants A and B are reacting, this results in product formation and photogeneration with excited intermediate C. When a substance of light or other radiation of a different wavelength is absorbed by the electromagnetic spectrum, that substance emits light. This is called fluorescence. In most cases, the emitted light has a longer wavelength than the absorbed radiation with higher energy and therefore has a lower energy.