Phosphorescence

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In common use, phosphorescence also refers to the emission of light by bioluminescent plankton, and some other forms of chemoluminescence.
Phosphorescence
Phosphorescent powder under visible light, ultraviolet light, and total darkness.

Phosphorescence is a specific type of photoluminescence related to fluorescence. Unlike fluorescence, a phosphorescent material does not immediately re-emit the radiation it absorbs. The slower time scales of the re-emission are associated with "forbidden" energy state transitions in quantum mechanics. As these transitions occur less often in certain materials, absorbed radiation may be re-emitted at a lower intensity for up to several hours.

The study of phosphorescent materials led to the discovery of radioactivity in 1896.

Contents

Explanations of the phenomenon

Simple explanation

In simple terms, phosphorescence is a process in which energy absorbed by a substance is released relatively slowly in the form of light. This is in some cases the mechanism used for "glow-in-the-dark" materials which are "charged" by exposure to light. Unlike the relatively swift reactions in a common fluorescent tube, phosphorescent materials used for these materials absorb the energy and "store" it for a longer time as the subatomic reactions required to re-emit the light occur less often.

Quantum mechanical explanation

Most photoluminescent events, in which a chemical substrate absorbs and then re-emits a photon of light, are fast, on the order of 10 nanoseconds. However, for light to be absorbed and emitted at these fast time scales, the energy of the photons involved (i.e. the wavelength of the light) must be carefully tuned according to the rules of quantum mechanics to match the available energy states and allowed transitions of the substrate. In the special case of phosphorescence, the absorbed photon energy undergoes an unusual intersystem crossing into an energy state of higher spin multiplicity (see term symbol), usually a triplet state. As a result, the energy can become trapped in the triplet state with only quantum mechanically "forbidden" transitions available to return to the lower energy state. These transitions, although "forbidden", will still occur but are kinetically unfavored and thus progress at significantly slower time scales. Most phosphorescent compounds are still relatively fast emitters, with triplet lifetimes on the order of milliseconds. However, some compounds have triplet lifetimes up to minutes or even hours, allowing these substances to effectively store light energy in the form of very slowly degrading excited electron states. If the phosphorescent quantum yield is high, these substances will release significant amounts of light over long time scales, creating so-called "glow-in-the-dark" materials.

Equation

S_0 + h\nu \to S_1 \to T_1 \to S_0 + h\nu^\prime

Where S is a singlet and T a triplet whose subscripts denote states (0 is the ground state, and 1 the excited state). Transitions can also occur to higher energy levels, but the first excited state is denoted for simplicity.

Confusion with chemiluminescence

Some examples of "glow-in-the-dark" materials do not glow because they are phosphorescent. For example, "glow sticks" glow due to a chemiluminescent process which is commonly mistaken for phosphorescence. In chemi-luminescence, an excited state is created via a chemical reaction. The excited state will then transfer to a "dye" molecule, also known as a (sensitizer, or fluorophor), and subsequently fluoresce back to the ground state.

Common components in phosphorescent materials

Common pigments used in phosphorescent materials include zinc sulfide and strontium aluminate. Use of zinc sulfide for safety related products dates back to the 1930s. However, the development of strontium oxide aluminate, with a luminance approximately 10 times greater than zinc sulfide, has relegated most zinc sulfide based products to the novelty category. Strontium oxide aluminate based pigments are now used in exit signs, pathway marking, and other safety related signage. Strontium aluminate based afterglow pigments are marketed under brandnames like Super-LumiNova12 or NoctiLumina.3

Research

With luminiscent microspheres now is possible to manufacture plastics that will glow as bright as a 40 watt light bulb for well over a decade. It can be combined with thin-film cell to generate electricity 4 5. This research is the winner of the Grand Prize in the NASA´s "Create the Future Design Contest" 6 2007 7 8.

 Please help improve this section by expanding it. Further information might be found on the talk page or at requests for expansion. (October 2008)

See also

References

  1. ^ RC TRITEC Super-LumiNova
  2. ^ Nemoto & Co., Ltd LumiNova
  3. ^ NoctiLumina company website
  4. ^ http://www.glopaint.com/
  5. ^ http://peswiki.com/index.php/Directory:MPK_Co's_Litroenergy
  6. ^ http://www.createthefuturecontest.com/
  7. ^ http://www.createthefuturecontest.com/pages/view/entriesdetail.html?previous=1&entryID=567
  8. ^ http://www.techbriefs.com/content/view/2731/36/
 This article needs additional citations for verification.
Please help improve this article by adding reliable references. Unsourced material may be challenged and removed. (April 2008)

External links

Look up phosphorescence, glowing in Wiktionary, the free dictionary.

Wikipedia content modification information:

  • This page was last modified on 14 November 2008, at 07:29.

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