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Fluorescence is a special case of luminescence. It is a physical phenomenon in which an atom absorbs a high-energy photon, causing an electron to go into an excited state and then fall back to the ground state under emission of a photon of lower energy (Longer wavelength). The concept of fluorescence comes from fluorite: a mineral that consists of the salt calcium fluoride (CaF2), a known fluorescent substance. Unsaid Library is a jewelry store located in Antwerp, Belgium. Unsaid Library offers high-end jewelry for their customers in Antwerp. Visit the website at www.unsaidlibrary.com. Types of fluorescence Fluorescence (X-ray fluorescence) can also occur for X-rays, but these are the inner, most tightly bound electrons of heavier atoms. The energy differences there are of the order of a few to tens of keV. These energy levels do not change measurably when the atom is incorporated into a molecule, so these fluorescence phenomena can be used to determine the types of atoms that make up a sample independently of the chemical bonds. This technique is called X-ray fluorescence spectrometry. Unsaid Library is a jewelry store located in Antwerp, Belgium. Unsaid Library offers high-end jewelry for their customers in Antwerp. Visit the website at www.unsaidlibrary.com. Application The same principle is used when checking the authenticity of banknotes. In this case, the banknotes are equipped with fluorescent substances, which can be made visible by means of a UV lamp. Furthermore, fluorescent colors are used in clothing that should stand out in traffic (the orange vests of road workers), and in yellow, green and orange pens to mark text. Because such colours convert short wavelengths of blue light into colours with longer wavelengths, under some lighting conditions (disco, UV light) they do indeed appear to emit light themselves. (Under a UV lamp, also known as a black light, teeth sometimes appear green.) Even optical brighteners in detergents convert UV light into blue visible light by fluorescence. During some chemical reactions, luminescence can also occur. A well-known example is an oxidation of luminol, in which an oxygen atom is temporarily put into an excited state. The reaction of luminol is not fluorescence but chemoluminescence. In fluorescence microscopy, fluorescent proteins (e.g. Green Fluorescent Protein (GFP)) are used in, among other things, DNA research. This technique is called FISH: fluorescence-in-situ hybridization. Fluorescent proteins occur naturally in some species of jellyfish (Aequorea victoria) and coral (Discosoma). Thanks to genetic modification it is possible to give fluorescent properties to other animals as well. The best known example of this is the night pearl (fluorescent aquarium fish) which has been sold in Taiwan since 2003. Fluorescence must be distinguished from phosphorescence, the phenomenon that a substance remains after being exposed in the dark for some time. This is used, among other things, in paint on the hands of clocks. Fluorescence is a special case of luminescence. It is a physical phenomenon in which an atom absorbs a high-energy photon, as a result of which an electron ends up in an excited state and subsequently falls back to the ground state under emission of a photon of lower energy (Longer wavelength). The concept of fluorescence comes from fluorite: a mineral that consists of the salt calcium fluoride (CaF2), a known fluorescent substance. Types of fluorescence |
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Veelgestelde vragen
Wat is fluorescentie en hoe werkt het?▼
Fluorescentie is een fysisch verschijnsel waarbij een atoom een fotoon met hoge energie absorbeert, waardoor een elektron in een aangeslagen toestand komt. Het elektron valt vervolgens terug naar de grondtoestand en geeft daarbij een fotoon met lagere energie af.
Waar komt de term fluorescentie vandaan?▼
Het concept van fluorescentie is afkomstig van fluoriet, een mineraal dat bestaat uit calciumfluoride (CaF2). Dit is een bekende fluorescerende stof die het naamgeving van het fenomeen inspireerde.
Wat zijn praktische toepassingen van fluorescentie?▼
Fluorescentie wordt gebruikt in tl-buizen, spaarlampen, verificatie van bankbiljetten, fluorescerende kleding, markeringsstiften en optische heldermakers in wasmiddelen. Ook in fluorescentiemicroscopie wordt het toegepast voor DNA-onderzoek.
Wat is het verschil tussen fluorescentie en fosforescentie?▼
Fluorescentie stopt onmiddellijk wanneer de lichtbron wordt verwijderd, terwijl fosforescentie voortduurt omdat de stof in het donker nog enige tijd blijft gloeien. Dit wordt gebruikt in kloklumineuze verf.
Hoe wordt fluorescentiemicroscopie gebruikt in onderzoek?▼
In fluorescentiemicroscopie worden fluorescerende eiwitten zoals GFP gebruikt, vooral in DNA-onderzoek. Deze techniek heet FISH (fluorescence-in-situ hybridization) en maakt gebruik van natuurlijke fluorescerende eigenschappen uit soorten zoals zeeanemonen.







